Pipe connector systems, devices and methods

ABSTRACT

Systems, devices and methods for pipe connectors and associated components are disclosed. Features for no hub clamps, for locking mechanisms on no hub clamps, for tools for no hub clamps, and for gaskets are described. The clamp has a band with a locking mechanism for convenient locking together of the ends of the band about two adjacent pipes. The band may have two narrower, elongated sub-bands connected together in between by transverse ties. The locking mechanism may include a securement feature such as a tab on one end of the band and a complementary engagement area on the other end. The engagement area may have slots into which features of the tab may be secured. The band may have arcuate gripping projections whereby rotation of a tool head causes linear translation of the two ends of the band. The various locking mechanisms may be tightened and secured using various tools having engagement features complementary to the gripping projections.

INCORPORATION BY REFERENCE TO ANY PRIORITY APPLICATIONS

Any and all applications for which a foreign or domestic priority claim is identified in the Application Data Sheet as filed with the present application are hereby incorporated by reference under 37 CFR 1.57.

This application claims the benefit of U.S. Provisional Patent Application No. 62/137,682, filed Mar. 24, 2015, entitled PIPE CONNECTOR SYSTEMS, DEVICES AND METHODS, and the benefit of U.S. Provisional Patent Application No. 62/210,912, filed Aug. 27, 2015, entitled PIPE CONNECTOR SYSTEMS, DEVICES AND METHODS, the disclosures of each of which is incorporated herein by reference in its entirety.

BACKGROUND

1. Field

This disclosure relates to connectors for connecting pipes. In particular, features for a no hub clamp, gasket, tool and associated methods are disclosed.

2. Description of the Related Art

Pipe connectors are used for connecting the ends of pipes to allow for continuous and sealed passage of fluid between the pipes. One such connector is a no hub clamp. No hub clamps can include bands that wrap around the ends of adjacent pipes. The bands are then screwed together. However, such no hub clamps can be complex and difficult to make and use. Accordingly, a new type of no hub clamp is needed that is convenient to use and simpler to manufacture.

SUMMARY

The embodiments disclosed herein each have several aspects no single one of which is solely responsible for the disclosure's desirable attributes. Without limiting the scope of this disclosure, its more prominent features will now be briefly discussed. After considering this discussion, and particularly after reading the section entitled “Detailed Description of Certain Embodiments,” one will understand how the features of the embodiments described herein provide advantages over existing systems, devices and methods for receiving items.

Described herein are embodiments of a no hub clamp for connecting the ends of two pipes, tools for using such clamps, a gasket, and associated methods of use of all of these. In one embodiment, the clamp in a loosened state may surround the two ends of the pipes that are to be connected with each other. The ends of the pipes may abut together and then be secured in place by tightening the clamp around the two ends into a locked state. A seal, gasket, or other part or parts at the interface of the two pipes may be assembled around and/or between the pipes, and the clamp may then be secured over the pipes and any such seal, gasket, etc. The clamp may be first sheathed over one of the pipes, the two ends of the pipes (and any seal etc.) may then be brought together, and then the clamp may be slid over the two ends of the pipes (and over any seal etc.) and tightened such that the clamp compresses the pipes and fixes the pipes in place next to each other.

In one aspect, an apparatus for coupling two adjacent pipe ends is disclosed. The apparatus comprises an elongated band having a first end and a second end opposite the first end, the band configured to circumferentially surround the two adjacent pipe ends, and a locking mechanism coupled with the elongated band, the locking mechanism configured to bring together the first and second ends of the band, the locking mechanism further configured to tighten and lock the apparatus in a locked configuration about the two adjacent pipe ends. The locking mechanism comprises a flexible tab coupled with and extending away from the first end of the band, a rigid nub coupled with and projecting away from the flexible tab, and a complementary member coupled with the second end of the band, the complementary member having an edge. In the locked configuration, the rigid nub snaps into a position adjacent to the edge, and the flexible tab is configured to flex to allow the rigid nub to snap into the position adjacent to the edge.

In some embodiments, the flexible tab is protruding substantially orthogonally from a portion of the band to which the tab is coupled, and the rigid nub is extending toward the second end of the band, and the tab and nub define a receiving space thereunder configured to receive the complementary member of the second end of the band.

In some embodiments, the edge of the complementary member is located on the second end of the band.

In some embodiments, the apparatus further comprises a hollow channel coupled with and projecting away from the second end of the band, the hollow channel configured to receive a tool end therein to assist with closing and locking the apparatus in the locked configuration.

In some embodiments, the apparatus further comprises a connector having a first end a second end opposite the first end, with the first end of the connector rotatably coupled with the first end of the elongated band and the second end of the connector rotatably coupled with the second end of the elongated band.

In some embodiments, the second end of the connector comprises an overhang extending beyond the second end of the band, wherein the overhang includes the edge that snaps into position with the rigid nub in the locked configuration.

In some embodiments, the flexible tab is connected to a bar that is moveably connected to the first end of the band, and the bar can be moved along the length of the band to adjust the size of the apparatus in the locked configuration.

In another aspect, an apparatus for coupling two adjacent pipe ends is disclosed. The apparatus comprises an elongated band having a first end and a second end opposite the first end, with the band configured to circumferentially surround the two adjacent pipe ends, and a locking mechanism coupled with the elongated band. The locking mechanism is configured to bring together the first and second ends of the band, and the locking mechanism is further configured to tighten and lock the apparatus in a locked configuration about the two adjacent pipe ends. The locking mechanism comprises a flexible elongated tab coupled with and extending away from the first end of the band, a lip coupled with and extending away from an end of the tab, a channel coupled with and extending away from the second end of the band, with the channel configured to receive the tab therethrough, and a stop coupled with and projecting away from the band near the channel, with the stop configured to contact the lip. In the locked configuration, the tab extends through the channel and the lip contacts the stop thereby restricting movement of the tab out of the channel.

In some embodiments, the end of the tab containing the lip comprises an upwardly bent portion, the bent portion further restricting movement of the tab out of the channel in the locked configuration.

In some embodiments, the stop extends in a direction away from the channel.

In some embodiments, the apparatus further comprises a plurality of the stops defining a plurality of grooves each configured to receive the lip in the locked configuration.

In some embodiments, the apparatus further comprises a first arcuate projection coupled with and extending away from the first end of the band, and a second arcuate projection coupled with and extending away from the second end of the band, with the first and second arcuate projections configured for gripping with a tool to facilitate tightening and locking the apparatus.

In some embodiments, the locking mechanism further comprises another flexible elongated tab coupled with and extending away from the first end of the band, another lip coupled with and extending away from an end of the other tab, another channel coupled with and extending away from the second end of the band, with the other channel configured to receive the other tab therethrough, and another stop coupled with and projecting away from the band near the other channel, with the other stop configured to contact the other lip. In the locked configuration, the other tab extends through the other channel and the other lip contacts the other stop thereby restricting movement of the other tab out of the other channel.

In some embodiments, the end of the other tab containing the other lip comprises another upwardly bent portion, with the other bent portion further restricting movement of the other tab out of the other channel in the locked configuration.

In some embodiments, the other stop extends in a direction away from the other channel.

In some embodiments, the apparatus further comprises a plurality of the other stops defining a plurality of other grooves each configured to receive the other lip in the locked configuration.

In another aspect, an apparatus for coupling two adjacent pipe ends is disclosed. The apparatus comprises an elongated band having a first end and a second end opposite the first end, the band configured to circumferentially surround the two adjacent pipe ends, and a locking mechanism coupled with the elongated band, with the locking mechanism configured to bring together the first and second ends of the band, and with the locking mechanism further configured to tighten and lock the apparatus in a locked configuration about the two adjacent pipe ends. The locking mechanism comprises a flexible elongated tab coupled with and extending away from the first end of the band, with the tab including a raised portion on an outer surface of the tab, and a channel coupled with and extending away from the second end of the band, with the channel configured to receive the tab therethrough, and with the channel including a series of slots configured to receive therein the raised portion of the tab when the tab is inserted through the channel. In the locked configuration, the tab extends through the channel and the raised portion of the tab is inserted into one of the slots of the channel thereby restricting movement of the tab out of the channel.

In some embodiments, the elongated tab can flex up and down to allow the raised portion of the tab to move, respectively, into and out of one of the slots of the channel.

In some embodiments, the tab further comprises a lip coupled with and extending away from an end of the tab.

In some embodiments, the apparatus further comprises a stop coupled with and projecting from the second end of the band, with the lip of the tab configured to contact the stop to prevent the tab from exiting the channel.

In some embodiments, the series of slots are parallel to each other and extend in a direction transversely to the elongated band.

In some embodiments, the raised portion of the tab is elongated and complements a shape of the slots.

In some embodiments, the channel includes an angled end portion on an end of the channel farthest from the second end of the band.

In some embodiments, the apparatus further comprises a first arcuate projection coupled with and extending away from the first end of the band, and a second arcuate projection coupled with and extending away from the second end of the band, with the first and second arcuate projections configured for gripping with a tool to facilitate tightening and locking the apparatus.

In some embodiments, the first and second arcuate projections are C-shaped projections. In some embodiments, the first and second arcuate projections are rounded pins.

In some embodiments, the locking mechanism further comprises another flexible elongated tab coupled with and extending away from the first end of the band, the other tab including another raised portion on another outer surface of the other tab, and another channel coupled with and extending away from the second end of the band, with the other channel configured to receive the other tab therethrough, and with the other channel including a series of other slots configured to receive therein the other raised portion of the other tab when the other tab is inserted through the other channel. In the locked configuration, the other tab extends through the other channel and the other raised portion of the other tab is inserted into one of the other slots of the other channel thereby restricting movement of the other tab out of the other channel.

In some embodiments, the other elongated tab can flex up and down to allow the other raised portion of the other tab to move, respectively, into and out of one of the other slots of the other channel.

In some embodiments, the other tab further comprises another lip coupled with and extending away from an end of the other tab.

In some embodiments, the apparatus further comprises another stop coupled with and projecting from the second end of the band, with the other lip of the other tab configured to contact the other stop to prevent the other tab from exiting the other channel.

In some embodiments, the series of other slots are parallel to each other and extend in a direction transversely to the elongated band.

In some embodiments, the raised portion of the other tab is elongated and complements a shape of the other slots. In some embodiments, the other channel includes an angled end portion on an end of the other channel farthest from the second end of the band.

In another aspect, an apparatus for coupling two adjacent pipe ends is disclosed. The apparatus comprises first and second elongated band portions, each band portion having a first end and a second end opposite the first end, with the first band portion configured to circumferentially surround one of the two adjacent pipe ends and the second band portion configured to circumferentially surround the other of the two adjacent pipe ends, a plurality of transverse ties each connecting the first band portion with the second band portion, and a locking mechanism coupled with the apparatus, the locking mechanism configured to bring together the first and second ends of the band portions, with the locking mechanism further configured to tighten and lock the apparatus in a locked configuration about the two adjacent pipe ends. The locking mechanism comprises a first flexible elongated tab coupled with and extending away from the first end of the first band portion, the first tab including a first raised portion on an outer surface of the first tab, a first channel coupled with and extending away from the second end of the first band portion, the first channel configured to receive the first tab therethrough, with the first channel including a series of first slots configured to receive therein the first raised portion of the first tab when the first tab is inserted through the first channel, and a second flexible elongated tab coupled with and extending away from the second end of the second band portion, with the second tab including a second raised portion on an outer surface of the second tab, and a second channel coupled with and extending away from the first end of the second band portion, with the second channel configured to receive the second tab therethrough, and with the second channel including a series of second slots configured to receive therein the second raised portion of the second tab when the second tab is inserted through the second channel. In the locked configuration, the first tab extends through the first channel and the first raised portion of the first tab is inserted into one of the first slots of the first channel thereby restricting movement of the first tab out of the first channel, and in the locked configuration the second tab extends through the second channel and the second raised portion of the second tab is inserted into one of the second slots of the second channel thereby restricting movement of the second tab out of the second channel.

In some embodiments, in the locked configuration, the first band portion has a first diameter and the second band portion has a second diameter, and wherein the first and second diameters are different.

In some embodiments, the first elongated tab can flex up and down to allow the first raised portion to move, respectively, into and out of one of the first slots, and wherein the second elongated tab can flex up and down to allow the second raised portion to move, respectively, into and out of one of the second slots.

In some embodiments, the first tab further comprises a first lip coupled with and extending away from an end of the first tab, and the second tab further comprises a second lip coupled with and extending away from an end of the second tab.

In some embodiments, the apparatus further comprises a first stop coupled with and projecting from the second end of the first band, and a second stop coupled with and projecting from the first end of the second band, with the first lip of the first tab configured to contact the first stop to prevent the first tab from exiting the first channel, and the second lip of the second tab configured to contact the second stop to prevent the second tab from exiting the second channel.

In some embodiments, the series of first slots are parallel to each other and extend in a direction transversely to the elongated first band portion, and the series of second slots are parallel to each other and extend in a direction transversely to the elongated second band portion.

In some embodiments, the first raised portion of the first tab is elongated and complements a shape of the first slots, and the second raised portion of the second tab is elongated and complements a shape of the second slots.

In some embodiments, the first channel includes a first angled end portion on an end of the first channel farthest from the second end of the band, and the second channel includes a second angled end portion on an end of the second channel farthest from the first end of the band.

In some embodiments, the apparatus further comprises a first arcuate projection coupled with and extending away from the first end of the first band portion, and a second arcuate projection coupled with and extending away from the second end of the second band portion, with the first and second arcuate projections configured for gripping with a tool to facilitate tightening and locking the apparatus.

In some embodiments, the first and second arcuate projections are rounded pins.

In some embodiments, the apparatus further comprises a first projection coupled with and extending away from the first end of the first band portion, with the first projection defining a cavity facing away from the first end of the first band portion, and a second projection coupled with and extending away from the second end of the first band portion, with the second projection defining a cavity facing away from the second end of the first band portion, a third projection coupled with and extending away from the first end of the second band portion, with the third projection defining a cavity facing away from the first end of the second band portion, and a fourth projection coupled with and extending away from the second end of the second band portion, with the fourth projection defining a cavity facing away from the second end of the second band portion, and with the first, second, third and fourth projections each configured for receiving a tool within their respective cavities to facilitate tightening and locking the apparatus.

In another aspect, a method of coupling a first and second pipe end is disclosed. The method comprises surrounding the first and second pipe ends with an elongated band, wherein the first and second pipe ends are located adjacent to each other, and locking a locking mechanism that is coupled with the elongated band such that the elongated band tightens and thereby securely couples the adjacent first and second pipe ends. Locking the locking mechanism comprises inserting a flexible tab through an opening defined by a channel, wherein the flexible tab is coupled with a first end of the elongated band and the channel is coupled with a second end of the elongated band that is opposite the first end, and receiving a raised portion of the flexible tab into a slot defined by a wall of the channel thereby restricting movement of the flexible tab out of the channel.

In some embodiments, locking the locking mechanism further comprises flexing the flexible tab.

In some embodiments, the method further comprises receiving a first arcuate projection into the head of a tightening tool, with the first arcuate projection coupled with the first end of the elongated band, and receiving a second arcuate projection into the head of the tightening tool, with the second arcuate projection coupled with the second end of the elongated band, and rotating the head of the tightening tool to bias the first and second arcuate projections toward each other.

In some embodiments, the method further comprises surrounding the first and second pipe ends with a gasket, where surrounding the first and second pipe ends with the elongated band comprises surrounding the gasket with the elongated band, and where locking the locking mechanism comprises tightening the elongated band at least partially on the gasket.

In another aspect, a method of coupling a first and second pipe end is disclosed. The method comprises surrounding the first pipe end with a first circumferential portion of an elongated band, surrounding the second pipe end with a second circumferential portion of the elongated band, where the first and second circumferential portions of the elongated band are connected together by a plurality of transverse ties extending generally orthogonally to the elongated band, and where the first and second pipe ends are located adjacent to each other, and locking a locking mechanism that is coupled with the elongated band such that the elongated band tightens and thereby securely couples the adjacent first and second pipe ends. Locking the locking mechanism comprises inserting a first flexible tab through a first opening defined by a first channel, where the first flexible tab is coupled with a first end of the first circumferential portion of the elongated band and the first channel is coupled with a second end of the first circumferential portion of the elongated band that is opposite the first end of the first circumferential portion of the elongated band, receiving a first raised portion of the first flexible tab into a first slot defined by a first wall of the first channel thereby restricting movement of the first flexible tab out of the first channel, inserting a second flexible tab through a second opening defined by a second channel, where the second flexible tab is coupled with a first end of the second circumferential portion of the elongated band and the second channel is coupled with a second end of the second circumferential portion of the elongated band that is opposite the first end of the second circumferential portion of the elongated band, and receiving a second raised portion of the second flexible tab into a second slot defined by a second wall of the second channel thereby restricting movement of the second flexible tab out of the second channel.

In some embodiments, locking the locking mechanism further comprises flexing the first flexible tab and flexing the second flexible tab.

In some embodiments, the method further comprises receiving a first arcuate projection into the head of a tightening tool, where the first arcuate projection is coupled with the first or second end of the first circumferential portion of the elongated band, receiving a second arcuate projection into the head of the tightening tool, where the second arcuate projection is coupled with the first or second end of the second circumferential portion of the elongated band, and rotating the head of the tightening tool to bias the first and second arcuate projections toward each other.

In some embodiments, the method further comprises surrounding the first and second pipe ends with a gasket, where surrounding the first and second pipe ends with the elongated band comprises surrounding the gasket with the elongated band, and where locking the locking mechanism comprises tightening the elongated band at least partially on the gasket.

In another aspect, a gasket is disclosed. The gasket comprises a rounded sidewall defining a channel therethrough in a first direction, with the sidewall comprising a first sidewall portion having a first edge and a second edge that is opposite the first edge, the first and second edges extending generally in the first direction, and the first sidewall portion having a first thickness, and a first membrane section connecting the first edge to the second edge, the first membrane section extending generally in the first direction, and the first membrane section having a second thickness, with the second thickness less than the first thickness.

In some embodiments, the first sidewall portion further comprises a second membrane section extending generally in the first direction and having the second thickness.

In some embodiments, the first sidewall portion further comprises a third membrane section extending generally in the first direction and having the second thickness.

In some embodiments, the first sidewall portion further comprises a fourth membrane section extending generally in the first direction and having the second thickness.

In some embodiments, the first membrane section is configured to at least partially collapse to bring the first and second edges closer to each other.

In some embodiments, the first, second, third and fourth membrane sections are each configured to at least partially collapse.

In some embodiments, the rounded sidewall further comprises a first half having an outer end and an inner end, with the outer end defining a first opening of the channel and having a first width, a second half having an outer end and an inner end, with the outer end defining a second opening of the channel opposite the first end of the channel, and with the second end having a second width, with the inner ends of the first and second halves connected and having a third width, and with the third width less than the first and second widths.

In some embodiments, the first and second halves are frustoconical.

In some embodiments, the rounded sidewall further comprises a first half having an outer end and an inner end, with the outer end defining a first opening of the channel and having a first width, a second half having an outer end and an inner end, with the outer end defining a second opening of the channel opposite the first end of the channel, and with the second end having a second width, with the inner ends of the first and second halves connected and having a third width, and with the third width less than the first and second widths.

In some embodiments, the first and second halves are frustoconical.

In some embodiments, the membrane section comprises a first portion coupled with the first half of the sidewall and extending from the outer end of the first half to the inner end of the first half, with the first portion of the membrane wider at the outer end than at the inner end, and a second portion coupled with the second half of the sidewall and extending from the outer end of the second half to the inner end of the second half, with the second portion of the membrane wider at the outer end than at the inner end.

In some embodiments, the membrane section defines an inner gap facing the channel.

In some embodiments, the membrane section defines an outer gap on an outer surface of the sidewall.

In some embodiments, the membrane section defines an inner gap facing the channel and defines an outer gap on an outer surface of the sidewall.

In some embodiments, the membrane section is configured to collapse generally into a Z-shape.

In some embodiments, the membrane section comprises an edge configured to bias the membrane section to collapse into the Z-shape.

In some embodiments, the gasket further comprises a first end and a second end that is opposite the first end, with the first edge, the second edge and the membrane section extending from the first end to the second end.

In some embodiments, the membrane section is configured to collapse generally into a V-shape.

In some embodiments, the membrane section comprises an edge configured to bias the membrane section to collapse into the V-shape.

In some embodiments, the gasket further comprises a first end, a second end that is opposite the first end, and a circumferential ridge coupled with the sidewall and projecting into the channel in between the first and second ends.

In some embodiments, the circumferential ridge comprises a plurality of ridge portions interrupted and separated by the membrane section.

In some embodiments, the gasket further comprises a first end and a second end that is opposite the first end, with the first edge, the second edge and the membrane section extending from the first end to a location in between the first and second ends.

In some embodiments, the gasket further comprises a first end, a second end that is opposite the first end, and a circumferential ridge coupled with the sidewall and projecting into the channel in between the first and second ends.

In some embodiments, the first edge comprises first and second edge portions, with the second edge comprising first and second edge portions, with the first membrane section comprising first and second membrane portions, with the first edge portions and first membrane section extending from the first end toward the ridge, and with the second edge portions and second membrane section extending from the second end toward the ridge.

In some embodiments, the first edge portions and first membrane section extend from the first end to the ridge, and the second edge portions and second membrane section extend from the second end to the ridge.

In another aspect, a tool for closing two ends of a clamp is disclosed. The tool comprises a handle and a head coupled with the handle, with the head comprising a sidewall defining a cavity therein, with the cavity having a rounded portion configured to contact arcuate projections of the clamp, and where rotation of the head about the arcuate projections biases the two ends of the clamp substantially linearly towards each other.

In another aspect, a tool for closing two ends of a clamp is disclosed. The tool comprises a handle and a head coupled with the handle, with the head comprising an outer sidewall defining a cavity therein, with the cavity having a rounded portion configured to contact arcuate projections of the clamp, and an inner spiral wall coupled with the outer sidewall and occupying a portion of the cavity, where rotation of the head about the arcuate projections biases the two ends of the clamp substantially linearly towards each other.

In another aspect, an apparatus for coupling two adjacent pipe ends is disclosed. The apparatus comprises an elongated band having a first end and a second end opposite the first end, with the band configured to circumferentially surround the two adjacent pipe ends, and a locking mechanism coupled with the elongated band. The locking mechanism is configured to bring together the first and second ends of the band, with the locking mechanism further configured to tighten and lock the apparatus in a locked configuration about the two adjacent pipe ends. The locking mechanism comprises a latch having a first end and a second end, with the latch rotatably coupled near the first end of the latch with the first end of the band, with the latch further having a first projecting pin located near the second end of the latch, and the latch further having a curved side edge, and a locking projection coupled with the second end of the band, with the locking projection having a curved surface that is complementary to the curved side edge of the latch, and with the latch configured to rotate such that the latch securedly engages the locking projection by contacting at least part of the curved side edge of the latch to the curved surface of the locking projection.

In another aspect, an apparatus for coupling two adjacent pipe ends is disclosed. The apparatus comprises an elongated band having a first end and a second end opposite the first end, with the band configured to circumferentially surround the two adjacent pipe ends, with the first end comprising at least one opening therethrough and the second end comprising at least one channel having a plurality of slots, a pin comprising a base coupled with a protrusion extending away from the base, with the protrusion configured to extend through the opening of the elongated band, a flexible elongated tab comprising a base portion and an extension portion opposite the base portion, with the base portion having an opening therethrough and the extension having a raised portion extending away from the base portion, and with the opening of the base portion configured to receive the protrusion of the pin therethrough, and a channel coupled with and extending away from the second end of the band, with the channel configured to receive the extension portion of the tab therethrough, and with the channel including a series of slots configured to receive therein the raised portion of the tab when the tab is inserted into the channel thereby restricting movement of the tab out of the channel.

In some embodiments, the second end of the band comprises at least one second opening therethrough, and the apparatus further comprises a second pin comprising a second base coupled with a second protrusion extending away from the second base, with the second protrusion configured to extend through the at least one second opening of the elongated band, a second flexible elongated tab comprising a second base portion and a second extension portion opposite the second base portion, with the second base portion having a second opening therethrough and the second extension having a second raised portion extending away from the second base portion, with the second opening of the second base portion configured to receive the second protrusion of the second pin therethrough, and a second channel coupled with and extending away from the first end of the band, with the second channel configured to receive the second extension portion of the second tab therethrough, and with the second channel including a series of second slots configured to receive therein the second raised portion of the second tab when the second tab is inserted into the second channel thereby restricting movement of the second tab out of the second channel.

In some embodiments, the first and second pins comprise first and second bases that are wider than the first and second openings of the elongated band.

In some embodiments, the elongated band comprises first and second raised corners that each include respectively the first and second openings of the elongated band.

In some embodiments, the elongated band and first and second channels are formed from a single piece of sheet metal.

In some embodiments, the elongated flexible tab is formed from sheet metal.

In another aspect, a tool for closing two ends of a clamp is disclosed. The tool comprises a tool head having a first end and a second end opposite the first end, with the tool head defining between the first and second ends an opening configured to receive therein a handle, a first sidewall having a first contour and located at the first end of the tool head, with the first sidewall defining a first cavity facing a first direction and configured to contact a first arcuate projection of the clamp, a second sidewall having a second contour and located at the second end of the tool head, with the second sidewall defining a second cavity facing a second direction opposite the first direction and configured to contact a second arcuate projection of the clamp, with the first and second contours of the first and second sidewalls configured such that rotation of the head about the first and second arcuate projections biases the two ends of the clamp substantially linearly towards each other.

In another aspect, an apparatus for coupling two adjacent pipe ends is disclosed. The apparatus comprises an elongated band having a first end and a second end opposite the first end, with the band configured to circumferentially surround the two adjacent pipe ends, with the first end of the band defining a plurality of slots therethrough, with the second end comprising a raised tab formed from the elongated band, and with the second end of the band configured to slide underneath the first end of the band such that the raised tab is received by at least one of the plurality of slots thereby restricting movement of the first end of the band relative to the second end of the band.

In some embodiments, the first end of the band defines a second plurality of slots therethrough, with the second end comprising a second raised tab formed from the elongated band, and with the second end of the band configured to slide underneath the first end of the band such that the second raised tab is received by at least one of the second plurality of slots thereby restricting movement of the first end of the band relative to the second end of the band.

In some embodiments, the apparatus further comprises a first gripping element coupled with and projecting away from the first end of the band, and a second gripping element coupled with and projecting away from the second end of the band, with the first and second gripping elements configured to be engaged by a tool such that rotation of the tool will bias the first and second ends of the band substantially linearly towards each other.

In some embodiments, the first gripping element is located on the first end of the band adjacent the plurality of slots, and the second gripping element is located on the second end of the band adjacent the raised tab.

In some embodiments, the first gripping element comprises a first arcuate projection and the second gripping element comprises a second arcuate projection

BRIEF DESCRIPTION OF THE DRAWINGS

The foregoing and other features of the present disclosure will become more fully apparent from the following description and appended claims, taken in conjunction with the accompanying drawings. Understanding that these drawings depict only several embodiments in accordance with the disclosure and are not to be considered limiting of its scope, the disclosure will be described with additional specificity and detail through use of the accompanying drawings. In the following detailed description, reference is made to the accompanying drawings, which form a part hereof. In the drawings, similar symbols typically identify similar components, unless context dictates otherwise. The illustrative embodiments described in the detailed description, drawings, and claims are not meant to be limiting. Other embodiments may be utilized, and other changes may be made, without departing from the spirit or scope of the subject matter presented here. It will be readily understood that the aspects of the present disclosure, as generally described herein, and illustrated in the drawing, can be arranged, substituted, combined, and designed in a wide variety of different configurations, all of which are explicitly contemplated and make part of this disclosure.

FIG. 1 is a perspective view of an embodiment of an assembly of a clamp and two pipe ends.

FIG. 2A is a perspective view of an embodiment of a clamp having a locking mechanism.

FIG. 2B is a detail view of the locking mechanism of FIG. 2A.

FIG. 2C is a perspective view of a tab that may be used with the locking mechanism of FIGS. 2A-2B.

FIG. 2D is a perspective view of another embodiment of a locking mechanism that may be used with the clamp of FIG. 2A.

FIG. 2E is a perspective view of another embodiment of a clamp having a locking mechanism.

FIG. 2F is a detail view of the locking mechanism of FIG. 2E

FIG. 2G is a perspective view of an embodiment of a tool that may be used with various embodiments of the clamps described herein.

FIG. 3 is a perspective view of another embodiment of a locking mechanism that may be used with the various clamps described herein.

FIG. 4A is a perspective view of another embodiment of a locking mechanism that may be used with the various clamps described herein.

FIG. 4B is a perspective view an embodiment of a tab that may be used with the locking mechanism of FIG. 4A.

FIG. 4C is a perspective view an embodiment of a channel that may be used with the locking mechanism of FIG. 4A.

FIG. 4D is a perspective view another embodiment of a channel that may be used with the locking mechanism of FIG. 4A.

FIG. 4E is a perspective view an embodiment of a gripping element that may be used with the locking mechanism of FIG. 4A.

FIG. 5A is a perspective view another embodiment of a tool that may be used with various embodiments of the clamps described herein.

FIG. 5B is a cross-section view of the tool of FIG. 5A.

FIG. 6A is a top view of another embodiment of a locking mechanism that may be used with the various clamps described herein.

FIG. 6B is a perspective view of an embodiment of a tab and channel that may be used with the locking mechanism of FIG. 6A.

FIG. 6C is a perspective view of an embodiment of a tab that may be used with the locking mechanism of FIG. 6A.

FIG. 7A is a perspective view of an embodiment of a tool that may be used with various embodiments of the clamps described herein.

FIGS. 7B and 7C perspective views of embodiments of a tool head that may be used with the tool of FIG. 7A.

FIG. 8 is a top view of an embodiment of a tool head coupled with a locking mechanism.

FIG. 9 is a top view of another embodiment of a locking mechanism.

FIG. 9A is a perspective view of a projection of the locking mechanism of FIG. 9.

FIG. 10A is a top view of an embodiment of a gasket.

FIG. 10B is a cross-section view of the gasket of FIG. 10A, as taken along the line 10B-10B indicated in FIG. 10A.

FIG. 10C is a top view of another embodiment of a gasket.

FIGS. 10D and 10E are perspective and top views, respectively, of a portion of another embodiment of a gasket.

FIG. 10F is a perspective view of a portion of another embodiment of a gasket.

FIG. 10G is a top view of the gasket of FIG. 10F assembled with a clamp.

FIG. 11 is a top view of an embodiment of a locking mechanism that may be used with the various clamps described herein.

FIG. 12A is a top view of an embodiment of a band in a flat configuration that may be used to form the clamps described herein.

FIG. 12B is a perspective view of the band of FIG. 12A in a rounded configuration.

FIG. 12C is a top view of an embodiment of a tab in a flat configuration that may be used with the band of FIGS. 12A-12B.

FIG. 12D is a top view of the tab of FIG. 12C in a rounded configuration.

FIG. 12E is a perspective view of an embodiment of a pin that may be used with the band of FIGS. 12A-12B.

FIG. 12F is a perspective view of an embodiment of a tool that may be used with the band of FIGS. 12A-12B.

FIG. 12G is a perspective view of an embodiment of an assembly of the band of FIGS. 12A-12B, the tab of FIGS. 12C-12D and the pin of FIG. 12E engaged by the tool of FIG. 12F.

FIG. 12H is a top view of an embodiment of a clamp formed from the components of FIGS. 12A-12E and engaged by the tool of FIG. 12F.

FIG. 13A is a top view of another embodiment of a locking mechanism that may be used with the various clamps described herein.

FIG. 13B is a top view of a portion of the locking mechanism of FIG. 13A.

DETAILED DESCRIPTION

The following detailed description is directed to certain specific embodiments of the development. In this description, reference is made to the drawings wherein like parts or steps may be designated with like numerals throughout for clarity. Reference in this specification to “one embodiment,” “an embodiment,” or “in some embodiments” means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one embodiment of the invention. The appearances of the phrases “one embodiment,” “an embodiment,” or “in some embodiments” in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments necessarily mutually exclusive of other embodiments. Moreover, various features are described which may be exhibited by some embodiments and not by others. Similarly, various requirements are described which may be requirements for some embodiments but may not be requirements for other embodiments.

Systems, devices and methods for a no hub clamp are described which may be used to couple two abutting pipes together. A collapsible gasket may be used. The gasket may have ends with oversized widths to assist with installation of the gasket over the pipe ends. The gasket may have a wall having sections of thin membrane that collapse when the clamp is tightened over the gasket. The clamp may have a band with a connecting mechanism on either end of the band for convenient locking together of the ends of the band about the pipes. The band may be an extended, bendable material. The band may also be two narrower, elongated sub-bands connected together in between by flexible connecting elements such as transverse ties. The connecting or locking mechanism can have a protruding tab with a projection or lip that snaps in an edge of the opposite end of the band. The connecting mechanism may have tunnels through which flexible members are received. The band may have slots on one end, such is in the tunnels or in the band, that receive a complementary tab or projection on the other end of the band, such as in the flexible members or in the band, to secure the two ends of the band together. The bands may further have gripping projections that assist with closing and securing the clamp. The bands and connecting mechanism features may be manufactured from inexpensive materials and processes, for example with sheet metal and stamping or pressing processes. Further, the various connecting mechanisms may be locked using a tool that fits the particular connecting mechanism features, such as the gripping projections. The tool and gripping projections may be configured such that applying a torque to the tool translates the two ends of the band substantially linearly toward each other. Therefore, simple, easy to use, and inexpensively-manufactured clamps and associated components are disclosed that simplify and reduce the costs associated with connecting pipe ends while providing reliable and durable seals and connections.

Embodiments of the development will now be described with reference to the accompanying figures, wherein like numerals refer to like elements throughout. The terminology used in the description presented herein is not intended to be interpreted in any limited or restrictive manner, simply because it is being utilized in conjunction with a detailed description of certain specific embodiments of the development. Furthermore, embodiments of the development may include several novel features, no single one of which is solely responsible for its desirable attributes or which is essential to practicing the invention described herein.

FIG. 1 is a perspective view of an assembly 10 of a clamp 100 securing a first pipe 110 with a second pipe 120. The pipes 110, 120 may be circular, metallic pipes used in a variety of contexts. For example, the pipes 110, 120 may be used for plumbing or for other fluid transportation purposes. The pipes 110, 120 may have other cross-section shapes beside circular and/or be formed of other materials. The pipes 110, 120 may meet at an interface 115. The interface 115 may be a location where the first pipe 110 abuts the second pipe 120. The interface 115 is shown in dashed line because it is underneath the clamp 100. The interface 115 may include other features located in between the two adjacent ends of the pipes 110, 120, for example a gasket or portions thereof. Therefore, the embodiment of the assembly 10 shown is exemplary only.

The clamp 100 may surround the two ends of the pipes 110, 120. The clamp 100 may have a generally circular or otherwise rounded shape configured to surround and conform to a contour or contours of the outer surfaces of the pipes 110, 120, and/or to other features in between the clamp 100 and the pipes 110, 120. Although described primarily herein as having a generally circular or otherwise rounded shape, the clamp 100 may have other shapes to conform to non-circular or non-rounded shapes or segments of the pipes 110, 120. Portions of the outer surfaces of the pipes 110, 120 are shown in dashed line underneath the clamp 100 for clarity. As is discussed in further detail below, other features or structures may be located in between the clamp 100 and the outer surfaces of the two pipes 110, 120. For example, there may be a gasket or other types of seals in between the clamp 100 and the two pipes 110, 120.

The clamp 100 may include an elongated band 102. The elongated band 102 may be a main body of the clamp. The band 102 may extend around the ends of the two pipes 110, 120. The band 102 may be elongated circumferentially around the pipes 110, 120. In some embodiments, the length of the band 102 in the direction of elongation is longer than the width of the band 102. The band 102 may be formed from a metallic material. In some embodiments, the band 102 is stainless steel. The band 102 may be formed from a variety of other suitable materials as well, whether metallic or otherwise, or combinations thereof. Therefore, the band 102 may be formed from a variety of materials, having varying degrees of rigidity, flexibility, etc.

The band 102 may include a first end 104 and a second end 106. The first end 104 is located opposite the second end 106. The first end 104 may refer to a region on the end of the band 102. Therefore, the first end 104 may not only be confined to an edge or other narrow portion of that end of the band 102. The first end 104 may thus be a region that includes an edge as well as some inner region or portion of the band 102. The second end 106 may the same or similar features as the first end 104.

The clamp 100 may include a locking mechanism 101. The locking mechanism 101 may lock or otherwise secure the two ends 104, 106 together. The locking mechanism 101 may be used to bring together the two ends 104, 106 of the clamp 102 and tighten the clamp 100 onto the two pipes 110, 120, which may be at or near the interface 115. The locking mechanism 101 may be located between the first end 104 and the second end 106. As shown, the locking mechanism 101 may be coupled with the first end 104 and the second end 106. The locking mechanism 101 may therefore connect the first end 104 to the second end 106. As is further discussed in detail below, the locking mechanism 101 may be adjustable so that the clamp 100 can accommodate various sizes and/or shapes of pipes 110, 120. The locking mechanism 101 may have a substantially shorter length as compared to that of the band 102. In some embodiments, the length of the locking mechanism 101 may be longer. Further, the locking mechanism 101 may have a width similar to that of the band 102. In some embodiments, the locking mechanism 101 may be narrower or wider than that of the band 102.

FIGS. 2A through 2F depict various views of various embodiments of a clamp 200 having a locking mechanism 201. FIG. 2G depicts an embodiment of a tool 230 that may be used with various embodiments of the clamps described herein, such as the clamp 200, as is discussed in further detail below.

As shown in FIG. 2A, the clamp 200 may have a locking mechanism 201 connecting a first end 204 of an elongated band 202 to a second end 206 of the elongated band 202. The first end 204 may be located on the opposite end of the band 202 as that of the second end 206. The band 202 may have the same or similar features as other bands described herein, for example the elongated band 102. The locking mechanism 201 may have the same or similar features as other locking mechanisms described herein, for example the locking mechanism 101.

As shown, the band 202 may be generally circular or otherwise rounded. The band 202 may include a first edge portion 202A and a second edge portion 202B. The edge portions 202A, 202B may extend circumferentially along two edges of the band 202. The edge portions 202A, 202B may be solid portions of the band 202. The edge portions 202A, 202B may be directly connected at one or both of the ends 204, 206 by a transverse extension of either or both of the edge portions 202A, 202B.

The band 202 may include a middle portion 202C. The middle portion 202C may extend circumferentially along the band 202 and connect the two edge portions 202A, 202B to each other. The middle portion 202C may include a series of slots. The slots may extend transversely with respect to the length of the band 202. The middle portion 202C may provide increased flexibility to the band 202. In some embodiments, the middle portion 202C may be composed of a multitude of smaller bar elements. In some embodiments, the middle portion 202C may be formed from a multitude of bar elements, either spaced or touching, extending transversely and connecting the first edge portion 202A to the second edge portion 202B.

The clamp 200 may include a connector 208. The connector 208 may connect the two ends 204, 206 of the band 202. The connector 208 may be rotatably connected to the two ends 204, 206 as discussed in further detail below. The connector 208 may be a planar solid sheet of material such as metal or other suitable materials.

FIG. 2B is a detail view of the clamp 200 of the region indicated by detail 2B as shown in FIG. 2A. As shown in FIG. 2B, the connector 208 may have a first end 210 and a second end 212 that is opposite the first end 210. The first and second ends 210, 212 may be rounded so as to provide a rotatable or hinged connection with the band 202. As shown, the band 202 may have a corresponding rounded portion 205 at the first end 204 and a corresponding rounded portion 207 at the second end 206. The rounded portion 205 may rotatably connect with the first end 210 of the connector 208. The rounded portion 207 of the second end 206 may rotatably connect with the second end 212 of the connector 208. The configuration shown is merely one example and other rotatable or hinged connected interfaces between the connector 208 and the ends 204, 206 of the band 202 may be implemented. The rotatable interfaces allow for the ends 204, 206 of the band 202 to rotate relative to the ends 210, 212 of the connector 208. This allows for example for the second end 206 of the band 202 to be brought closer to and rotated over the second end 204 of the band 202 in the direction indicated by the arrow 203. In some embodiments, the axis of rotation may be along the interface between the rounded portion 205 and the first end 210 of the connector 208. For example, the second end 206 may be rotated about the first end 204 to bring the second end 206 closer to features, such as a flexible tab 211, located on or near the first end 204.

The locking mechanism 201 may include the flexible tab 211 on the first end 204 and an edge 216 on the second end 206. In some embodiments, the edge 216 may be moved, for example rotated with the second end 206 as described above, to the flexible tab 211 such that the edge 216 snaps into place with the flexible tab 211. The flexible tab 211 may secure the edge 216 thereby locking or otherwise securing the clamp 200.

The flexible tab 211 may include a projection 209. The projection 209 may be coupled with the band 202. As shown, the projection 209 may be coupled with the first end 204 of the band 202. The projection 209 may be coupled with and extend away from the middle portion 202C of the band 202. The projection 209 may be located centrally with respect to the outer edges 202A, 202B. However, the projection 209 may be in a variety of locations, such as off-center or located on the first or second edge portions 202A, 202B. In some embodiments, the projection 209 may extend or project substantially orthogonally from that portion of the first end 204 to which it is connected. The projection 209 may be a substantially flat member. In some embodiments, the projection 209 is rectangular. The projection 209 may be formed from a variety of suitable materials, such as metal or other rigid materials. However, the flexible tab 211 can flex or otherwise deflect away from first end 204 in order to lock with a complementary locking feature on the second end 206. For instance, the flexible tab 211 may flex or deflect in order to secure the tab 211 with the edge 216.

The flexible tab 211 may also include a lip 214. The lip 214 may extend or project away from an end of the projection 209. The lip 214 may have a triangular cross section. However, other shapes that are suitable may be implemented. As shown, the lip 214 may project away from an end of the projection 209 that is opposite the end of the projection 209 that is connected to the band 202. The lip 214 may extend towards the second end 206 of the band 202. The lip 214 may have a length that is same or similar as a width of the projection 209. As shown, the lip 214 has the same length as the width of the projection 209.

The lip 214 and the projection 209 of the flexible tab 211 may define a receiving space 215. The receiving space 215 may be a region underneath the lip 214 and adjacent the projection 209. The receiving space 215 may be configured to receive the edge 216. For example, the edge 216 may be brought on top of the lip 214 which may be an angled surface. By pushing down on the lip 214 with the edge 216, the flexible tab 211, for example, the projection 209, may flex in a direction away from the first end 204 to receive the edge 216 in the receiving space 215. The flexible tab 211 may then flex or deflect back toward the first end 204 once the edge 216 is within the receiving space 215. Thus, the lip 214 may now securely keep the edge 216 within the receiving space 215.

The clamp 200 may include various features to facilitate with closing the clamp 200 and locking the locking mechanism 201. As shown in FIG. 2B, the clamp 200 may include a tunnel 217. There may be two tunnels 217 as shown. There may be a tunnel 217 located at the second end 206 near the second edge portion 202B and another tunnel 217 located at the second end near the first edge portion 202A. This is merely an example and more or fewer tunnels 217 may be implemented and in a variety of locations at the second end 206.

The tunnel 217 may include sidewalls 219 connected by a top member 218. The sidewalls 219 may project away from the second end 206 and be connected by the top member 218. The sidewalls 219 and the top member 218 may be a single, monolithic piece of material. The tunnel 217 may therefore be formed from a single piece of material that defines the sidewalls 219 and the top member 218. In some embodiments, the tunnel 217 is formed from metal and is substantially rigid such that it will not deflect.

The tunnel 217 may define an opening 221. The opening 221 as shown may be defined by the sidewalls 219 and the top member 218. The opening 221 may be a space configured to receive a tool therein. For instance, a tool having a corresponding shape may be inserted into the opening 221 in order to facilitate with closing the clamp 200. In some embodiments, a prong or other feature of a tool may be inserted into each of the openings 221 of the tunnels 217 to bring the second end 206 to the first end 204 and secure the edge 216 with the flexible tab 211. While the tunnels 217 are shown having a generally square or rectangular shape, other suitable shapes may be implemented. A tool may then have a corresponding shape. Further detail of the tools that may be used are discussed below, for example, with respect to FIG. 2G.

FIG. 2C depicts an embodiment of the flexible tab 211 that may be used with the clamp 200. As shown, the flexible tab 211 may include the projection 209 connected to two of the lips 214. The two lips 214 may be separated such that they form a space 213 in between the two lips 214. The two lips 214 may be narrower than embodiments having only a single lip 214. The smaller or narrower lips 214 may facilitate locking the mechanism by making the lips 214 more flexible such that the locking mechanism 201 may be locked using less force. The receiving space 215 may therefore be located underneath each of the lips 214 adjacent to the projection 209.

As further shown, the projection 209 may be connected to a movable bar 202D. The bar 202D may be rigidly connected to the projection 209. The bar 202D may be moved along the length of a band of a clamp, such as along the length of the band 202 of the clamp 200 shown in FIGS. 2A-2B. By moving the bar 202D the location of the flexible tab 211 may be adjusted. For example, the bar 202D may be located closer to the first end 204 in order to provide a more snug fit with the edge 216 in the locked configuration. Similarly, the bar 202D may be moved farther from the first end 204 to provide a less snug fit with the edge 216 in the locked configuration. The bar 202D may be connected to the band 202 and a variety of suitable ways, for example by being fastened.

FIG. 2D depicts an embodiment of the locking mechanism 201 having an extended connector 208. As shown, the connector 208 may be connected on the first end 210 with the portion 205 of the first end 204 of the band 202, as discussed above. The opposite end of the connector 208 may be extended beyond the interface between the end 212 and the portion 207 of the second end 206 of the band 202. As shown, and extension of the connector 208 may include a first raised nub 208A and/or a second raised nub 208B. In embodiments with both nubs 208A, 208B, a cavity 208C may be defined therebetween. The cavity 208C may be sized to fit the flexible tab 211.

In some embodiments, the connector 208 may be rotated in the direction 203A as shown to bring the cavity 208C into a locked or snapped configuration with the flexible tab 211. The cavity 208C may be received by the receiving space 215 of the flexible tab 211. The first and second raised nubs 208A, 208B in the locked configuration may rest on either side of the flexible tab 211. This configuration may provide resistance to relative lateral movement between the two ends 204, 206 of the band 202. In some embodiments, the first and second raised nubs 208A, 208B may produce a friction or interference fit with the sides of the projection 209 of the flexible tab 211 in the locked configuration. The portion of the connector 208 on the end in between the first and second raised nubs 208A, 208B may be an edge similar to the edge 216 described above.

FIG. 2E depicts another embodiment of the clamp 200 having the elongated band 202 with the locking mechanism 201. FIG. 2F shows a detailed view of the region 2F as indicated in FIG. 2E. As shown in FIG. 2E, the elongated band 202 may be connected by the connector 208. The first end 204 of the band 202 may include the bar 202D (as described with respect to FIG. 2C, for example) adjustably positioned on the outside of the band 202.

As shown in FIG. 2F, the bar 202D may include the flexible tab 211 defining the receiving space 215. The complementary locking feature of the band 202 may include the extensions 217A defining a cavity 217B there between. As shown, the extensions 217A may be extensions of the band 202. In some embodiments, the extensions 217A are solid metallic extensions coupled to or otherwise connected to the second end 206 of the band 202, where the outer edge portion 202A extends to meet the opposite outer edge portion 202A. In some embodiments, the extensions 217A and the cavity 217B formed there between may be similar to the first and second raised nubs 208A, 208B and the cavity 208C formed there between as discussed with respect to FIG. 2D. The extensions 217A and the cavity 217B there between, may interface with and lock to the flexible tab 211. The receiving space 215 of the flexible tab 211 may receive the cavity 217B thereby locking or otherwise securing the ends of the band 202.

FIG. 2G depicts a perspective view of an embodiment of a tool 230 that may be used with the various clamp embodiments described herein, such as the clamp 200. The tool 230 may be used to facilitate closing and locking the clamp 200. As shown, the tool 230 may include a handle 232. The handle 232 may be an elongated portion of the tool 230 configured to be grasped by the hand of a user. The handle 232 may be formed from metal or other rigid materials. The tool 230 may include a first prong 234 and a second prong 236 connected to the handle 232. The first and second prongs 234, 236 may split apart as shown. However there need not be a space in between the prongs 234, 236 such that they may be connected in between. The prongs 234, 236 may be formed from the same or similar materials as the handle 232.

The tool 230 may include a grabber 238. As shown, there may be two grabbers 238. The grabbers 238 may be connected to the ends of the two prongs 234, 236. The grabber 238 may facilitate or otherwise assist with positioning the tool 230 with the clamp 200 in order to close and secure the clamp 200 in the locked configuration. The grabber 238 may include a base 240 connected to two extensions 242. The base 240 may be connected to the end of the prongs 234, 236. The extensions 242 may extend from the base 240 in a direction away from the handle. As shown, the extensions 242 may be flat or substantially planar surfaces defining a space 244 there between. The extensions 242 may be square or rectangular in shape or other suitable shapes. Therefore, this space 244 may likewise be square or rectangular or other suitable shapes depending on the shape of the extensions 242.

The extensions 242, the space 244 and/or the base 240 of one of the grabbers 238 may interface with corresponding features of the clamp 200. For instance, one of the extensions 242 of one of the grabbers 238 may be inserted into the channel 221 defined by one of the tunnels 217 of the clamp 200, with the other extension 242 of the same grabber 238 placed over the top member 218 of that same tunnel 217 (for example, the clamp 200 as described with respect to FIG. 2B). The other grabber 238 may be similarly interfaced with the other tunnel 217 of the clamp 200. With the two grabbers 238 inserted into the respective channels 221 of the respective tunnels 217, the tool 230 may be pushed, rotated, or otherwise moved toward the first end 204 of the clamp 200. The respective bases 240 may contact the ends of the sidewalls 219 and/or top member 218 of the respective tunnel 217 to bias the second end 206 toward the first end 204. In this manner, a user may have leverage with the tool 230 in securing the clamp 200 in the locked configuration. The grabbers 238 may be in the same or similar plane as the handle 232. In some embodiments, the grabbers 238 may be out of plane with the handle 232. This may provide further leverage for a user of the tool 230. In some embodiments, the handle 232 may be out of plane and or angled with respect to the orientation of the grabbers 238. These are merely some examples and other suitable configurations may be implemented.

FIG. 3 depicts an embodiment of a locking mechanism 301 for securing the first end 304 and second end 306 of a band 302. The band 302 is only partially shown, for clarity. The band 302 may have the same or similar features as other bands described herein. For instance, the band may include a first outer edge portion 302A and a second outer edge portion 302B, which may be connected by a middle portion 302C. The outer edge portions 302A, 302B may also be directly connected at the ends 304, 306 by a lateral edge portion 302D that extends between the outer edge portions. The outer edge portions 302A, 302B may be solid portions of the band 302 and the middle portion 302C may provide increased flexibility to the band.

The locking mechanism 301 may have the same or similar features as other locking mechanisms described herein. The locking mechanism 301 may employ a flexible elongated tab 317 extending away from the first end 306 of the band 302. As shown, there may be two tabs 317. The tab 317 may include a base 317A which is coupled to the band 302. The base 317A may be coupled to an outer edge portion 302A, 302B of the band 302. The tab 317 may be coupled with a lip 319 extending away from an end of the tab. The tab 317 may further include a portion 318, which may be upwardly bent as shown, coupling the base 317A to the lip 319. In some embodiments, the base 317A, the portion 318, and the lip 319 may be formed from the same, monolithic piece of material.

One or more channels 320 may be coupled with and extending away from the second end 304 of the band 302 for receiving the tab or tabs 317. As shown, there may be two channels 320. The channel 320 may include one or more sidewalls 322 connected by a top member 324. As shown there may be two sidewalls 322. The sidewalls 322 may project away from the second end 304 and be connected by the top member 324. The sidewalls 322 and the top member 324 may be a single, monolithic piece of material. The channel 320 may define an opening 326, defined by the sidewalls 322 and/or the top member 324. The opening 326 may be a space configured to receive the tab 317. The band 302 may be manufactured with the tab 317 already inserted into the channel 320.

The second end 304 may also include a stop 311, positioned near the channel 320 and coupled with and extending away from the band 302. The stop 311 may extend, for example be angled, in a direction away from the channel 320.

The lip 319 of the tab 317 may engage the stop 311 and restrict the tab from moving out of the channel 320 when in the locked configuration. There may be a plurality of stops 312 such that a plurality of grooves 315 are defined between the stops 312, each configured to receive the lip 319 when in the locked configuration. The portion 318 of the tab 317 may be upwardly bent as shown for further restricting the movement of the tab 317 from moving out of the channel 320 when in the locked configuration.

The locking mechanism 301 may include more than one stop 311, tab 317, and channel 320. For example, the locking mechanism may include one stop 311, tab 317, and channel 320 coupled to the first edge portion 302A of the band 302 and another stop, tab, and channel coupled to the second edge portion 302B of the band, as shown. The stops 311, tabs 317, and channels 320 may be positioned directly across from each other with the middle portion 302C in between. All the stops 311, tabs 317, and channels 320 may have the same or similar features as discussed above. For instance, all the tabs 317 may be coupled with lips 319 for engaging stops 312.

The band 302 may also include an extended portion 308 that extends from the second end 306 of the band. The extended portion 308 may extend beyond the tab 317 and lip 319. The extended portion 308 may be coupled to or made integral with the second end 306. The lip 319 may extend toward the extended portion 308 without contacting the surface of the extended portion when in an unbiased state. The extended portion 308 may be a flat planar surface that slides below the second end 304 when in the locked configuration.

The band 302 may include a first gripping element 340 on the first end 306 of the band and a second gripping element 344 on the second end 304 of the band. The gripping elements 340, 44 may facilitate closure, tightening and/or locking of the band 302 about a pipe or pipe. Each gripping element 340, 344 may include an arcuate projection 342 coupled with and extending away from the lateral edge portion 302D of each end 304, 306 of the band 302. The arcuate projections 342 may be configured for gripping with a tool to facilitate tightening and locking the band. Further detail of the tools that may be used are discussed below, for example with respect to FIGS. 5A-5B.

FIGS. 4A through 4E depict various views of an embodiment of another locking mechanism 401 for securing the first end 404 and second end 406 of a band 402 that may be used with a clamp. The band 402 may have the same or similar features as other bands described herein, such as the band 102, 202 or 302. The band 402 may include a first edge portion 402A and a second edge portion 402B, which may be connected by a middle portion 402C. The outer edge portions 402A, 402B may also be directly connected at the ends 404, 406 by a lateral edge portion that extends between the outer edge portions 402A, 402B. The edge portions 402A, 402B may be solid portions of the band 402. The middle portion 402C may provide increased flexibility to the band. The second end 406 of the band 402 may include an extended portion 408 which is able to slide under the first end 404, for example when the locking mechanism 401 is being secured or is in the locked configuration.

The locking mechanism 401 may have the same or similar features as other locking mechanisms described herein, such as the locking mechanism 101, 201 or 301. The locking mechanism 401 may employ a flexible elongated tab 417 extending away from the second end 406 of the band 402. The tab 417 may include a base 417A which is coupled with the band 402. The base 417A may be coupled to an outer edge portion 402A, 402B of the band 402.

The tab 417 may include a raised portion 427 on its outer surface. The raised portion 427 may include an angled surface 421 that extends upward and in the direction that is toward the base 417A of the tab 417. The raised portion 427 may be integral with the rest of the tab 417. The tab 417 may further include an end portion 418, which may be flat. The end portion 418 may be in the same plane as the base 417A and extending beyond the raised portion 427 away from the second end 406 of the band 402. The tab 417 may also include a lip 419 coupled to and extending away from the end portion 418 of the tab.

A channel 420 may be coupled with and extending away from the first end 404 of the band 402. As shown in FIG. 4A, the locking mechanism 401 may include two channels 420. The channel 420 is also shown in isolation in FIG. 4C. The channel 420 may receive the tab 417. The channel 420 may include sidewalls 422 connected by a top member 424. The sidewalls 422 may project away from the band 402 and be connected to the top member 424. The channel 420 may also include flanges 423 extending from the bottom of the sidewalls toward the outer edge portions 402A, 402B. The flanges 423 may be parallel with the top member 424. The sidewalls 422, the top member 424, and the flanges 423 may be a single, monolithic piece of material. The flanges 423 may lay flat against the surface of the band 402 and be used to couple the channel 420 to the band 402. For example, coupling elements 425 may be used to secure the channel 420 to one of the outer edge portions 402A, 402B. Coupling elements 425 may be pins or screws. However, any suitable means of coupling may be used.

The channel 420 may define an opening 426. The opening may be defined by the sidewalls 422 and/or the top member 424. The opening 426 may be a space configured to receive the tab 417. The opening 426 may extend through the channel 420 from one end of the other. The opening 426 may receive the tab 417 therein and allow for movement of the tab 417 within the channel 420. Such movement may allow for positioning of certain features of the tab 417 relative to certain features of the channel 420 for engagement of the features and locking or otherwise securing the locking mechanism 401, as described herein.

The top member 424 may include edges 429 defining one or more spaces 428. The edges 429 may be rectangular as shown and thus define rectangular spaces 428. Other suitable shapes may be implemented. The spaces 428 may extend through the top member 424. The spaces 428 may be configured to receive the raised portion 427 of the tab 417, or portions thereof, that is inside the channel 420.

FIG. 4B shows another embodiment of the tab 417. Here, the raised portion 450 may include an angled surface 452 formed from a thin wall 458, which may be the same thickness as the rest of the tab 417. The raised portion 450 may form an edge portion 456 on the side of the raised portion 450 that is closer to the base 417A. The raised portion 450 may be such that the thin wall 458 extends to form the entire surface of the tab 417. The thin wall 458 may defined a space thereunder, although this space may also be filled in.

When in the locked configuration, the tab 417 may extend through the channel 420 and the raised portions 427 or 450 may be inserted into one of the spaces 428 such that the channel 420 restricts the tab 417 from moving out of the channel 420. The spaces 428 may be parallel to each other and extend in a direction transversely to the band 402. The raised portion 427 or 450 of the tab 417 may be elongated and shaped to complement the shape of the spaces 429. Further, the tab 417 may be able to flex upward and/or downward for engaging and disengaging the raised portion 427 or 450 with the spaces 428. The tab 417 may be biased upward so that the raised portion 427 or 450 may engage with the space 428 when no pressure is applied. The thin wall 458 of the tab 417 (shown in FIG. 4B) may allow for increased flexibility of the raised portion 450 so that it can be deflected downward to disengage from the slot 429. The slots 429 may be large enough to accommodate a tool, such as a flat head screwdriver, which could be used to apply downward pressure to the raised portion 450 and disengage the tab 417 from the channel 420.

FIG. 4D shows another embodiment of the channel 420A. The channel 420A may include an angled end portion 430 on the end of the channel 420A furthest from the first end 404 of the band 402 that extends upward and away from the second end of the band 402. The angled end portion 430 may act as a guide for a tool, such as a flat head screwdriver, orienting the tool into the proper position for disengaging the raised portion 427 or 450 from the space 428 into which the raised portion 427 or 450 is locked or secured.

Also, the portions of the top member 424 in between the spaces 428 may be flexible to facilitate disengaging the raised portion 427 or 450. For instance, the top member 424 may be flexed upward to disengage the raised portion 427 or 450. The tightness or snugness of the locking device 401 may be b providing different sizes of the spaces 428, for example with smaller spaces creating a tighter fit. The band 402 may be manufactured with the tab 417 already engaged in one of the spaces 428, for example the space 428 that is located closest to the first end 404 of the band.

The first end 404 may further include a stop 419A. As shown, the first end 404 may include two stops 419A, shown in dashed lines because they are located underneath the tabs 417 in the orientation shown in FIG. 4A. The stop 419A may be similar to other stops herein, for example the stop 311. The stop 419A may engage the inside of the lip 419 of the tab 417 to further restrict the tab 417 from moving out of the channel 420. The stop 419A may be positioned near the channel 420 and may extend away from the channel 420, for example in the ramped configuration as shown with a flat side facing the lip 419 in the orientation shown in FIG. 4A.

The locking mechanism 401 may include more than one stop 419A, tab 417, and channel 420. For example, the locking mechanism may include one stop 419A, tab 417, and channel 420 coupled to the first edge portion 402A of the band 402 and another stop 419A, tab 417, and channel 420 coupled to the second edge portion 402B of the band 402, as shown in FIG. 4A. The stops 419A, tabs 417, and channels 420 may be positioned directly across from each other with the middle portion 402C in between. All the stops 419A, tabs 347, and channels 420 may have the same or similar features as discussed above.

The band 402 may include a gripping element 440. The gripping element installed with the locking mechanism 410 is shown in FIG. 4A, and the gripping element in isolation is shown in FIG. 4E. There may be two gripping elements 440, with one located on each end 404, 406 of the band 402. The gripping elements 440 may facilitate the closure, tightening and/or locking of the band 402.

Each gripping element 440 may include an arcuate projection 442 coupled with and extending away from the band 402. The projection 442 may extend away from the lateral edge portion of each end 404, 406 of the band 402. The arcuate projections 442 may be C-shaped with the opening of the “C” facing toward the edge of the end 404, 406 to which it is coupled. Alternatively, the arcuate projections 442 may be rounded pins. The outer contour of the projections 442 may be circular as shown, or other rounded shapes. The arcuate projections 442 may be configured for gripping with a tool to facilitate tightening and locking the band. Further detail of the tools that may be used are discussed below.

The arcuate projection 442 may be coupled directly to the band or it may be coupled to a base 441 which extends outward from the bottom of the arcuate projection 442. The base 441 may be a planar surface which lays flat on the surface of the band 402 and is coupled to the lateral edge portion of each end 404, 406 of the band 402. As seen in FIG. 4E, the base 441 may not extend to the inner side of a C-shape arcuate projection 442. Coupling elements 443 may be used to secure the gripping element 440 to the band 402. Coupling elements 425 may be pins or screws, or other suitable coupling features. The arcuate projection 442 may be integral with the base 441.

FIGS. 5A and 5B depict views of an embodiment of a tool 500 for closing the locking mechanism of a clamp, such as those described with respect to FIGS. 3-4E. For instance, the locking mechanisms 301, 401 shown in FIGS. 3 and 4A may be secured using the tool 500. However, the tool 500 may be used with other embodiments of the various locking mechanism described herein.

As shown in the perspective view of FIG. 5A, the tool 500 may include a handle 510 and a head 520 coupled to the end of the handle 510. The handle 510 may include an elongated shaft 514 coupled to a gripping region 512. The gripping region 512 may be positioned on the end of the handle 510 that is away from the head 520. The gripping region 512 may be knurled for facilitating gripping. The head 520 may include an outer sidewall 524 coupled to a top member 522. The handle 520 may be coupled to the top member 522 at the end of the shaft 514 that is furthest from the gripping region 512. The outer sidewall 524 may be cylindrical in shape and the top member 522 may be circular to form a cylinder that is open at the end which is away from the attachment with the handle 510.

FIG. 5B is a cross-section view of the head 520 of the tool 500. As shown in FIG. 5B, the outer sidewall 524 may define a cavity 521 for receiving two or more arcuate projections 524, also shown in cross-section view. The arcuate projections 542 may be the same or similar to the arcuate projections 342, depicted in FIG. 3, or the arcuate projection 442, depicted in FIGS. 4A and 4E. The cavity 521 may be partially formed by rounded, inner surfaces of the sidewall 524 that are configured to contact the arcuate projections 542. The outer sidewall 524 may further be coupled with an inner spiral wall 526 which extends from the outer sidewall 524 into the cavity 521. The inner spiral wall 526 may spiral toward the center of the cavity such that the arcuate projections 542 may be initially received in the cavity 521 in between the outer sidewall 524 and the inner spiral wall 526. Using the handle 510, the head 520 may be rotated about the arcuate projections 542 so that the tool 500 biases the arcuate projections substantially linearly towards each other as the projections 542 encounter and then slide along the inner spiral wall 526. For instance, when the head 520 is rotated in the direction 523 as indicated in FIG. 5B, the arcuate projections 542 may be biased inward at the transition 525 between the outer wall 524 and the inner spiral wall 526. By biasing the arcuate projections 542 closer toward each other, the tool 500 may be used to tighten clamps which have arcuate projections on each end of a band.

FIGS. 6A through 6C depict various views of another embodiment of a locking mechanism 601 on another embodiment of a band 602. The locking mechanism 601 may secure the first end 606 of the band 602 with the second end 604 of the band 602. The band 602 may include a first sub-band 602A and a second sub-band 602B. The first sub-band 602A and the second sub-band 602B may extend alongside each other as shown, which may be a parallel arrangement. The band 602 may have the same or similar features as other bands described herein. For instance, each band 602 may be configured to circumferentially surround the ends of adjacent pipes.

Further, having the first sub-band 602A and the second sub-band 602B may facilitate connecting pipes of different diameters. The first sub-band 602A and the second sub-band 602B may be solid material, such as metal, or other suitable materials. The sub-bands 602A and 602B may be connected to each other by a plurality of transverse ties 602C extending between the sub-bands 602A and 602B. The sub-bands 602A and 602B may be connected the transverse ties 602C with fasteners, rivets, or other suitable means. In some embodiments, the sub-bands 602A, 602B and the transverse ties 602C are formed from the same, monolithic piece of material. In some embodiments, the sub-bands 602A, 602B and the transverse ties 602C are rotatably connected with each other. For example, the transverse ties 602C may rotate slightly either in- or out-of-plane relative to the sub-bands 602A, 602B. The transverse ties 602C may also extend perpendicularly between the sub-bands 602A, 602B. The transverse ties 602C may be of smaller width than the sub-bands 602A, 602B. The space between the transverse ties 602C and the sub-bands 602A, 602B may allow the sub-bands 602A, 602B to secure to pipes of different diameters. For example, the sub-band 602A may secure around a first pipe having a first diameter, and the sub-band 602B may secure around an adjacent second pipe having a second diameter that is larger than the first diameter. In this manner, the two different-diameter pipes may be secured and clamped together using the band 602 having the sub-bands 602A and 602B.

The locking mechanism 601 may have the same or similar features as other locking mechanisms described herein. The locking mechanism 601 may have a first flexible elongated tab 617 coupled with and extending away from the first end 606 of the first band 602A, and a second flexible elongated tab 617 coupled with and extending away from the second end 604 of the second band 602B. Another embodiment of the tab 617 is shown in isolation in FIG. 6C. The tab 617 may include a base 618 which may be coupled to the band 602. The tab 617 may also include a raised portion 650 on its outer surface. The raised portion 650 may include an angled surface 652 that extends upward and toward the base 618 of the tab 617 to meet a sidewall 654 positioned closer to the base 618. The sidewall 654 may be substantially perpendicular to the base 618. The angled surface 652 and the sidewall 654 together define an edge portion 656. The raised portion 650 may be integral with the rest of the tab 617. The tab 617 may also include a lip 619 coupled to and extending away from the end portion 618 of the tab.

As shown in FIGS. 6A and 6B, one or more channels 620 may be coupled with and extending away from the band 602. In some embodiments, the channels 620 may be coupled with and extending away from the second end 604 of the first band 602A and the first end 606 of the second band 602B for receiving the tabs 617. FIG. 6B shows the channel 620 receiving the tab 617. The channel 620 may include sidewalls 622 connected by a top member 624. The sidewalls 622 may project away from the band 602 and be connected by the top member 624. The sidewalls 622 and the top member 624 may be a single, monolithic piece of material. The top member 624 may include one or more edges 629 defining spaces 628 configured to receive the raised portion 650 of the tab 617. Specifically, the spaces 628 formed by the edges 629 may receive the edge portion 656 of the raised portion 650 of the tab 617. Smaller spaces 628 that are located closer together may provide a more refined adjustment capability to accommodate varying sizes of pipes and to achieve varying levels of tightness about pips of different diameters.

When in the locked configuration, the tab 617 may extend through the channel 620 and the raised portion 650 may be inserted into one of the spaces 628 formed by the edges 629 such that it restricts the tab from moving out of the channel. The spaces 628 may be parallel to each other and extend in a direction transversely to the band 602. The raised portion 650 of the tab 617 may be elongated and shaped to complement the shape of the spaces 628. The tab 617 may be able to flex upward and downward for engaging and disengaging the spaces 628. The tab 617 may be biased upward so that the raised portion 650 may engage a space 628 when no pressure is applied. The spaces 628 may be large enough to accommodate a tool, such as a flat head screwdriver, which could be used to apply downward pressure to the raised portion 650 and disengage the tab 617 from the space 628 into which it is secured. Also the portions of the top member 624 between the spaces 628 may be made flexible to facilitate disengaging the raised portion 650. For instance, the top member 624 may be flexed upward to disengage the raised portion 650. The tightness of the locking device 601 could possibly be adjusted by changing the size of the spaces 628 with smaller slots creating a tighter fit, or a more refined tightening capability as mentioned.

The second end 604 of the first sub-band 602A and the first end 606 of the second sub-band 602B may each further include a stop (not shown) that is similar to stop 311 described above, for engaging the lip 619 of the tab 617 and further restricting the tab from moving out of the channel 620. The stop may be positioned near the channel 620 and may extend away from the channel 620.

The first and second ends 604, 606 may be brought together with a gripping element 640 for facilitating the tightening and locking of the bands 602 in configuration shown in FIG. 6A. As shown, the gripping elements 640 may be located on the second end 604 of the first sub-band 602A and the first end 606 of the second sub-band 602B. Alternatively, the gripping elements 640 may be located on the first end 604 of the first sub-band 602A and the second end 606 of the second sub-band 602B. Each gripping element 640 may include an arcuate projection 642 extending away from the band 602. The arcuate projections 642 may be integral with the bands 602. The arcuate projections 642 may be rounded pins. The arcuate projections 642 may be configured for gripping with a tool to facilitate tightening and locking the band. Further detail of the tools that may be used are discussed herein, for example with respect to FIGS. 7A-7C.

FIGS. 7A through 7C depict an embodiment of a tool 700 that may be used to tighten and lock a clamp. The locking mechanism 601 shown in FIG. 6A provides an example of a clamp that the tool 700 may be used with. However, the tool 700 may be used with any suitable clamp. FIG. 7A is a perspective view of the tool 700. FIGS. 7B and 7C are perspective views of a head 720 that forms a part of the tool 700.

As shown in FIG. 7A, the tool 700 may include a handle 710 and the head 720 coupled to the end of the handle 710. The handle 710 may be integral with the head 720 or may be detachably connected thereto. The handle 710 may include an elongated shaft 714 coupled to a gripping region 712. The gripping region 712 may be positioned on the end of the handle 710 that is located away from the head 720. The gripping region 712 may be knurled for facilitating gripping. The shaft 714 may include a projection that extends orthogonally away from the shaft and inserts into the head 720. The head 720 may include an outer sidewall 724 coupled to a top member 722. The handle 720 may be coupled to the top member 722 at the end of the shaft 714 that is furthest from the gripping region 712.

As shown in FIGS. 7B and 7C, the head 720 of the tool 700 may include a recess 723 for receiving and detachably connecting to the shaft 714. The outer sidewall 724 may define two cavities 727 for receiving corresponding features, such as the arcuate projections 724 as shown in isolation in FIG. 7B. The arcuate projections 740 may be the same or similar to other arcuate projections described herein, such as the arcuate projections 642 depicted in FIG. 6A. Moving the head 720 in the direction of the arrow 728 shown in FIG. 7B may allow the cavities 727 to receive the arcuate projections 740 therein. The cavities 727 may have rounded inner portions configured to contact the outer rounded contours of the arcuate projections 742. The cavities 727 may each be semi-circular in shape with the flat sides of the semi-circles oriented directly towards each other. Using the handle 710, the head 720 may be rotated about the arcuate projections 740 so that contact of the arcuate projections with the curved surfaces of the cavities 727 biases them towards each other. By biasing the arcuate projections 740 closer toward each other, the tool 700 may be used to tighten clamps which have arcuate projections on each end of a band. In some embodiments, the tool 700 may bias projections of a clamp such that the ends of the clamp are biased toward each other in a linear or substantially linear direction. The cavities 727 may have inner contours against which the projections bear against such that rotation of the tool 700 will bias the projections linearly or substantially linearly, such that the ends of the clamp are biased towards each other. Thus, the tool 700 may exert forces on the projections 740 with parallel components of the forces biasing the projections 740 in a direction such that the two opposing ends of the clamp are biased together. In some embodiments, the tool 700 may bias the projections 740 towards each other without substantially inducing twisting or torsion in the band of the clamp.

FIG. 8 is a top view of an embodiment of a tool head 820 coupled with a locking mechanism 801. As shown, the tool head 820 may be used to tighten and secure a locking mechanism 801 and a band 802 of a clamp. Only the tool head 820 of a tool is shown, for clarity. The tool may be the same or similar to other tools described herein, such as the tool 700. The clamp may include the band 802, which may the same or similar as other bands described herein, such as the band 602. The clamp may employ a locking mechanism 801 similar to other locking mechanisms describe herein, such as the locking mechanism 601 shown in and described with respect to FIG. 6.

As further shown in FIG. 8, the band 802 may be coupled with arcuate projections 840, which are shown in dashed lines because they are below the head 820 of the tool. The head 820 may be placed over the arcuate projections 840 such that the head 820 extends diagonally between the two bands 802. The recess 823 in the head 820 may receive the shaft of a handle for applying torque to the head 820. Applying torque will rotate the head 820 about the arcuate projections 840, bringing them closer together and tightening the clamp. As described above, the projections such as projections 840 may be biased substantially linearly in opposite directions to bring the two ends of the clamp together and secure the locking mechanism 801.

FIG. 9 is a top view of another embodiment of a locking mechanism 901. The locking mechanism 901 may be the same or similar as other locking mechanism described herein, for example the locking mechanism 601 in FIG. 6. As shown in FIG. 9, the locking mechanism 901 may be used for securing the first end 906 of a band 902 with a second end 904 of the band 902. The band 902 may be the same or similar as other bands describe herein, for example the band 602 shown in and described with respect to FIG. 6.

As shown in FIG. 9, the band 902 may include a first sub-band 902A and a second sub-band 902B. The first sub-band 902A and the second sub-band 902B may be connected by transverse ties 902C. The transverse ties 902C may be the same or similar as other transverse ties described herein, for example the transverse ties 602C shown in and described with respect to FIG. 6A. The first sub-band 902A and the second sub-band 902B may each be coupled with one or more projections 940 at the first and second ends 906, 904, respectively, of the band 902.

FIG. 9A shows a detailed view of one of the projections 940. Each projection 940 may include sidewalls 942 projecting away from the band 902 and connected by a top member 944. The top member 944 may be angled such that it extends upward in a direction away from the end of the band 902 with which it is coupled. The sidewalls 942 and the top member 944 may be a single, monolithic piece of material. The sidewalls 942 and the top member 944 may together define a cavity 946 therein. The cavity 946 may be facing away from the end of the band with which it is coupled. Each projection 940 may be configured to receive a tool within its respective cavity 946 to facilitate tightening and locking the clamp.

FIGS. 10A through 10G depict various views and embodiments of gaskets. The gaskets may be used with the assembly 10. The gaskets may be used with any of the clamps described herein that are used to secure two pipes, such as the pipes 110, 120. The gaskets may be located between and/or around adjacent pipe ends, and any of the clamps described herein may be secured over the gaskets and corresponding pipes.

FIG. 10A is a top view of an embodiment of a gasket 1000. FIG. 10B is a cross-section view of the gasket 1000 as taken along the line 10B-10B indicated in FIG. 10A. Referring to FIGS. 10A and 10B, the gasket 1000 may have a top end 1001 opposite a bottom end 1003. The gasket may have a middle portion 1002 in between the top and bottom ends 1001, 1003. The middle portion 1002 may be located equidistant from the top and bottom ends 1001, 1003. The top and bottom ends 1001, 1003 may be wider than the middle portion 1002. In some embodiments, the top and bottom ends 1001, 1003 are approximately the same width. In some embodiments, the top and bottom ends 1001, 1003 are approximately the same diameter. As further described below, the shape of the gasket 1000, for example as seen in the side cross-section view of FIG. 10B, may approximate an hour glass shape. In some embodiments, the gasket 100 may have two frustoconical shapes extending away from the middle portion 1002 to the top and bottom ends 1001 and 1003. The large width or diameters of the top and bottom ends 1001 and 1003 may facilitate with securing the gasket 1000 to the pipe ends. For example, the larger opening at the top and bottom ends 1001 and 1003 may be larger than the outer width or diameter of the pipes to which the gasket 1000 is being secured. After the gasket 1000 is secured to two adjacent pipe ends, the gasket 1000, such as the ends 1001 and 1003 and/or other portions of the gasket 1000, may then collapse on the two pipe ends, for example upon pressure from a clamp, to provide a tighter seal about the pipe, as further described below. Thus the gasket 1000 may provide simpler installation about a pipe while still providing sealing capability.

The gasket 1000 may include a rounded sidewall 1010. The sidewall may be composed of a first portion 1010A, second portion 1010B, third portion 1010C, and/or a fourth portion 1010D. Each portion 1010A, 1010B, 1010C, and 1010D may have, respectively, a corresponding outer surface 1012A, 1012B, 1012C, and 1012D. Each portion 1010A, 1010B, 1010C, and 1010D may have, respectively, a corresponding inner surface 1014A, 1014B, 1014C, and 1014D.

The gasket 1000 may include a channel 1015. The rounded sidewall 1010 may define the channel 1015. For instance, the portions portion 1010A, 1010B, 1010C, and 1010D may defined the channel 1015. The channel 1015 may extend along the interior of the gasket 1000 from the top end 1001 to the bottom end 1003. The channel 1015 may extend in the direction indicated by the arrow 1050, as shown in FIG. 10B.

Each portion 1010A, 1010B, 1010C, 1010D may be separated from two adjacent portions by a gap 1017, as labelled in between portions 1010A and 1010B. Thus, the gaps 1017 may each be located between portions 1010A and 1010B (as labelled), between portions 1010B and 1010C as shown, between portions 1010C and 1010D as shown, and/or between portions 1010A and 1010D as shown. The sidewall 1010 may further include one or more membrane sections 1016 located at the gaps 1017 and extending longitudinally along the direction of the channel 1015. As shown in FIG. 10A, the membrane section 1016 may span the gaps 1017 connecting the outer edges of two adjacent sidewall portions 1010A, 1010B, 1010C, 1010D. For example, as shown the membrane section 1016 may connect a first outer edge 1011A of the sidewall portion 1010A to a second outer edge 1011B of the sidewall portion 1010B. In some embodiments, the membrane section 1016 can connect inner edges, or inner and outer edges. Similar membrane sections 1016 may be located, as shown, in between portions 1010B and 1010C, in between portions 1010C and 1010D, and/or in between portions 1010D and 1010A. The membrane section 1016 may be a thin material that can collapse. The membrane section 1016 may be of a lesser thickness than the sidewall portions 1010A, 1010B, 1010C, 1010D.

The portions 1010A-D may also have end surfaces, such as the end surfaces 1013A and 1013B of the portions 1010A and 1010B, respectively. The opposite ends of the portions 1010A and 1010B may also have end surfaces. Similarly, the other portions 1010C and 1010D may also each have two end surfaces. As shown, the end surfaces 1013A and 1013B of the sidewall portions may partially define the gaps 1017 between adjacent sidewall portions. Adjacent end surfaces may move closer together and/or contact each other when the gasket is compressed, for example when a clamp is tightened over the gasket 1000, as further described herein. For instance, adjacent end surfaces of the portions 1010A and 1010B may move closer together, such that first and second edges 1011A and 1011B are also brought closer together, and the membrane 1016 spanning in between edges 1011A and 1010B folds or otherwise collapses. Various regions of adjacent end surfaces may move varying distances when the gasket is compressed, for example if the gap 1017 and/or membrane 1016 are tapered or angled, as shown in and described with respect to FIG. 10B.

As best seen in FIG. 10B, the membrane sections 1016 and the end surfaces 1011C, 1011D may be angled. The membrane sections 1016 may be trapezoidal, as shown, or they may be other angled shapes, such as triangular, etc. The membrane sections 1016 may be wider at the top and bottom ends 1001 and 1003 of the gasket 1000 as compared to near the middle portion 1002 of the gasket 1000. The end surfaces of sidewall portions, for example end surfaces 1011C, 1011D, may likewise be angled, as also shown in FIG. 10B. For instance, the end surfaces 1013A and 1013B may be angled as shown. The other end surfaces may also be angled. The larger separation between the end surfaces 1013A and 1013B at the top and bottom ends 1001 and 1003 of the gasket 1000 may allow for differential compression in the gasket 1000. For instance, the gasket 1000 may be wider at the top and bottom ends 1001 and 1003 as compared to the middle portion 1002 such that upon compression of the gasket 1000 the top and bottom ends 1001 and 1003 compress more than the middle portion 1002. For example, upon compression of the gasket 1000, the regions of the end surfaces 1013A and 1013B near the top end 1001 may move further than the regions of the end surfaces 1013A and 1013B near the bottom end 1003. The tapered or otherwise angled configuration of the membrane 1016 and end surfaces 1013A, 1013B may facilitate such differential compression of the gasket 1000.

The gasket 1000 may also include a ridge 1018. The ridge 1018 may be coupled with an interior surface of the sidewall 1010. The ridge 1018 may be coupled with the inner surfaces 1014A, 1014B, 1014C, and/or 1014D of the sidewall 1010. The ridge 1018 may extend circumferentially around the interior of the channel 1015. The ridge 1018 may extend continuously around the interior of the channel 1015. There may also be discontinuities in the ridge 1018 (not shown). The ridge 1018 may be located in a plane generally perpendicular to the direction indicated by the arrow 1050. The ridge 1018 may form a ring extending from the inner surfaces 1014A, 1014B, 1014C, 1014D of the sidewall portions 1010A, 1010B, 1010C, 1010D toward the interior of the channel 1015. The ridge 1018 may therefore traverse each sidewall portion 1010A, 1010B, 1010C, 1010D. In some embodiments, the ridge 1018 may be located approximately at the middle of the gasket 1000 from the top to the bottom of the gasket 1000, relative to the direction arrow 1050. In some embodiments, the ridge 1018 may be located at or approximately at the middle portion 1002 of the gasket 1000. In some embodiments, the ridge 1018 may be located in between or approximately in between the top and bottom ends 1001, 1003 of the gasket 1000. The ridge 1018 may span the gaps 1017 between adjacent sidewall portions 1010A, 1010B, 1010C, 1010D. In some embodiments, the ridge 1018 may not be coupled with the membrane sections 1016, for example where the membrane sections 1016 do not extend to the ridge 1018. In other embodiments, the ridge 1018 may be coupled with the membrane sections 1016. For instance, FIG. 10A shows the ridge 1018 located between edge 1011A and edge 1011B at the labelled gap 1017. As another example, FIG. 10B shows the membrane section 1016 extending to the ridge 1018. These are merely examples and other configurations may be implemented.

Two pipes may be inserted into opposite ends of the gasket 1000 such that the edges of the pipes may abut opposite sides of the ridge 1018. The ridge 1018 may therefore provide a surface or surfaces upon which two adjacent pipe ends may contact when installed, for example in the assembly 10 described with respect to FIG. 1. The ridge 1018 may have a variety of other suitable shapes and configurations, including those which may be required by construction regulations or codes. The ridge 1018 may be formed from the same or similar materials as other portions of the gasket 1000. In some embodiments, the ridge 1018 is formed from a rubber material. However, the ridge 1018 may any other suitable material, or combinations thereof.

FIG. 10C shows an embodiment of a gasket 1000A in which the rounded sidewall contains only one sidewall portion 1010E. The gasket 1000A may include the same or similar features as the gasket 1000 described with respect to FIGS. 10A-10B, and vice versa. As shown in FIG. 10C, the gasket 1000A may have only one membrane section 1016 connecting first and second edges 1011E, 1011F of the sidewall portion 1010E. The first and second edges 1011E, 1011F may have the same or similar features as other edges described herein, for example the edges 1011A and 1011B. The sidewall portion 1010E may have the end surfaces 1013F and 1013G, which may have the same or similar features as other end surfaces described herein, for example the end surfaces 1013C and 1013D. Thus, in some embodiments, the gasket 1000A may have only one, or fewer than four, sidewall portions, and corresponding numbers of membranes 1016, gaps 1017, edges 1011E and 1011F, end surfaces 1013E and 1013F, etc. In some embodiments, there may be more than four sidewall portions, and corresponding numbers of membranes 1016, gaps 1017, edges 1011E and 1011F, end surfaces 1013F and 1013G, etc.

FIGS. 10D and 10E show perspective and top views, respectively, of an embodiment a gasket 1000B. The gasket 1000B may include the same or similar features as the gasket 1000 described with respect to FIGS. 10A-10B, and vice versa. The gasket 1000B may include the same or similar features as the gasket 1000A described with respect to FIGS. 10C-10D, and vice versa.

As shown in FIGS. 10D and 10E, the gasket 1000B may include a first sidewall portion 1040 and a second sidewall portion 1041. The sidewall portions 1040, 1041 may have the same or similar features as the other sidewall portions described herein, for example the sidewall portions 1010A-D. The sidewall portion 1040 may include an outer surface 1040A and an inner surface 1040B. The sidewall portion 1041 may include an outer surface 1041A and an inner surface 1041B. The various inner and outer surfaces 1040A, 1040B, 1041A, 1041B may have the same or similar features as other sidewall surfaces described herein, for example the sidewall surfaces 1014A-D and 1012A-D. The gasket 1000B may further include the ridge 1018, which may be as described above.

The gasket 1000B may include one or more collapsible joints 1020. Each joint 1020 may include one or more of the collapsible membranes 1016. At each joint 1020, the membrane 1016 may be coupled at one end with the inner surface 1040B of the sidewall portion 1040 and on the other end with the outer surface 1041A of the sidewall portion 1041. In some embodiments, the membrane 1016 may be coupled at one end with the outer surface 1040A of the sidewall portion 1040 and on the other end with the inner surface 1041B of the sidewall portion 1041. There may be a connector portion 1025. The connector portion 1025 may connect two or more membranes 1016. As shown, the connector portion 1025 may connect two adjacent membranes 1016. In some embodiments, there may be more than two membranes 1016 and more than one connector portion 1025 at a single collapsible joint 1020. The connector portion 1025 may another segment of the membrane 1016. Thus, the connector portion 1025 may be the same or similar material as the membrane 1016. The membrane(s) 1016 and/or connector portion 1025 may at least partially collapse at the joint 1020. The membrane(s) 1016 and/or connector portion 1025 may completely collapse at the joint 1020. By “collapse” this includes without limitation folding, scrunching, wrinkling, compressing, bending, or otherwise decreasing geometric dimension of the membrane 1016 by collapsing upon itself and/or collapsing upon surrounding features. The gasket 1000B is shown in a partially collapsed state. For example, the gasket 1000B may be in the process of being compressed onto a pipe end (not shown) by a clamp (not shown).

The joint 1020 may include an outer gap 1022 and/or an inner gap 1024. The outer gap 1022 may be on the exterior of the gasket 1000B. The inner gap 1024 may be on the interior. The inner gap 1024 may therefore face a channel on the inside of the gasket 1000B, such as the channel 1015 described above. The outer gap 1022 may be formed at least partially by the outer surface 1016A of the membrane 1016 and the inner gap 1024 may be formed adjacent to the outer gap 1022 at least partially by the inner surface 1016B of the membrane 1016. The shape of the gaps 1022, 1024 and/or joint 1020 may be defined by the membrane 1016 and the end surfaces of the sidewall portions 1040, 1041. For instance, the joint 1020 may be roughly Z-shaped. The gaps 1022, 1024 may provide spaces such that the joint 1020 may bend or flex at one or more edges 1026 to collapse the membrane 1016. “Collapse” here may be as described above. The shape of the gaps 1022, 1024 may be tapered or otherwise angled from an end of the gasket 1000B toward the ridge 1018. The membranes 1016 and end surfaces of the sidewall portions 1040, 1041 that define the gaps 1022, 1024 may be similarly tapered or angled, for example as described above with respect to FIGS. 10A-10B. For example, the gaps 1022, 1024 may be triangular or wedge shaped, as shown in FIG. 10D. The tapered gaps 1022, 1024 may allow for more compression of the membrane section 1016 near the end of the gasket as compared to a middle portion, as described above. The membrane 1016 may not extend all the way to ridge 1018, as best seen in FIG. 10D. In other embodiments, the membrane 1016 may extend to the ridge 1018.

FIG. 10F is a perspective view of a portion of an embodiment of a gasket 1000C. FIG. 10G is a top view of the gasket 1000 of FIG. 10F assembled with a clamp. The gasket 1000C may include the same or similar features as the gasket 1000 described with respect to FIGS. 10A-10B, and vice versa. The gasket 1000C may include the same or similar features as the gasket 1000A described with respect to FIGS. 10C-10D, and vice versa. The gasket 1000C may include the same or similar features as the gasket 1000B described with respect to FIGS. 10D-10E, and vice versa.

As shown in FIGS. 10F and 10G, the gasket 1000C may include a first sidewall portion 1040-1 and a second sidewall portion 1041-1. The sidewall portions 1040-1, 1041-1 may have the same or similar features as the other sidewall portions described herein, for example the sidewall portions 1040 and 1041. The sidewall portion 1040-1 may include an outer surface 1040A-1 and an inner surface 1040B-1. The sidewall portion 1041-1 may include an outer surface 1041A-1 and an inner surface 1041B-1. The various inner and outer surfaces 1040A-1, 1040B-1, 1041A-1, 1041B-1 may have the same or similar features as other sidewall surfaces described herein, for example the sidewall surfaces 1040A, 1040B, 1041A, 1041B. The gasket 1000C may further include a ridge 1018-1, which may have the same or similar features as other ridges described herein, for example the ridge 1018.

The gasket 1000C may include one or more collapsible joints 1020-1. As shown, there may be two collapsible joints 1020-1 located opposite each other. In some embodiments, there may be fewer or more collapsible joints 1020-1 and/or located in other positions. Each joint 1020-1 may include one or more collapsible membranes 1016-1. As shown, each joint includes one membrane 1016-1. The membrane 1016-1 may have the same or similar features as other membranes described herein, for example the membrane 1016. The membrane 1016-1 may include a single edge 1026-1 along which the membrane 1016-1 may fold other otherwise collapse. The edge 1026-1 may be pre-formed in the membrane 1016-1 for shape memory of the membrane 1016-1 such that the membrane 1016-1 will have a propensity to collapse along the edge 1026-1 and/or in the same direction.

At each joint 1020-1, the membrane 1016-1 may be coupled at one end with the outer surface 1040A-1 of the sidewall portion 1040-1 and on the other end with the outer surface 1041A-1 of the sidewall portion 1041-1. In some embodiments, the membrane 1016-1 may be coupled at one end with the inner surface 1040B-1 of the sidewall portion 1040-1 and on the other end with the inner surface 1041B-1 of the sidewall portion 1041-1. The membrane 1016-1 may at least partially collapse at the joint 1020-1. The membrane 1016-1 may completely collapse at the joint 1020-1. By “collapse” this includes without limitation folding, scrunching, wrinkling, compressing, bending, or otherwise decreasing geometric dimension of the membrane 1016-1 by collapsing upon itself and/or collapsing upon surrounding features.

The joint 1020-1 may include an outer gap 1022-1 and/or an inner gap 1024-1. The outer gap 1022-1 may be on the exterior of the gasket 1000C. The inner gap 1024-1 may be on the interior. The inner gap 1024-1 may therefore face a channel on the inside of the gasket 1000C, such as the channel 1015 described above. The shape of the gaps 1022-1, 1024-1 and/or joint 1020-1 may be defined by the membrane 1016-1 and the end surfaces of the sidewall portions 1040-1, 1041-1. For instance, the joint 1020-1 may be roughly V-shaped in the configuration shown. The gaps 1022-1, 1024-1 may provide spaces such that the joint 1020-1 may bend or flex at the edge 1026-1 to collapse the membrane 1016. “Collapse” here may be as described above. The shape of the gaps 1022-1, 1024-1 may be generally straight from an end of the gasket 1000C toward the ridge 1018-1. The membranes 1016-1 and end surfaces of the sidewall portions 1040-1, 1041-1 that define the gaps 1022-1, 1024-1 may be similarly straight. In some embodiments, the shape of the gaps 1022-1, 1024-1 may be tapered or angled from an end of the gasket 1000C toward the ridge 1018-1, for example as described with respect to the gasket 1000 or 1000B. The membrane 1016-1 may extend from one end of the gasket 1000C to the opposite end. The ridge 1018-1 may therefore be interrupted or discontinuous, as shown.

FIG. 10G shows the gasket 1000C assembled with a clamp 100-1. The clamp 100-1 may have the same or similar features as other clamps described herein, for example the clamp 100. The clamp 100-1 surrounds the gasket 1000C. The clamp 100-1 may include a locking mechanism 101-1. The locking mechanism 101-1 may have the same or similar features as other locking mechanisms described herein, for example the locking mechanism 101. The locking mechanism 101-1 may be tightened to tighten the clamp 100-1 about the gasket 1000C. This may in turn collapse the membranes 1016-1 at the joints 1020-1. The membrane 1016-1 may thus collapse into the inner gap 1024-1 and allow for opposing portions 1040-1, 104101 of the sidewall to move closer together to create a tighter seal about a pipe.

FIG. 11 is a top view of an embodiment of a locking mechanism 1101 for securing a first end 1106 and a second end 1104 of a band 1102. The band 1102 may have the same or similar features as other bands described herein. The locking mechanism 1101 may employ a latch 1117 having a latch body 1117A coupled with and extending away from the second end 1104 of the band 1102. The latch body 1117A may be coupled to the band 1102 through a pivot pin 1119 around which the latch 1117 may freely rotate. The latch 1117 may include two turn pins 1120 coupled to opposite ends of the latch body 1117A and on opposite sides of the pivot pin 1119. Applying torque to either or both of the turn pins 1120 may rotate the latch 1117 around the pivot pin 1119. The turn pins 1120 may be arcuate projections as shown. The turn pins 1120 may be configured for gripping with a tool, such as the tool shown in FIGS. 7A through 7C, to facilitate tightening and locking the locking mechanism 1101 and thus the band 1102. Further details of tools that may be used are discussed herein.

As further shown in FIG. 11, the first end 1106 of the band 1102 may be coupled with a locking projection 1134 extending away from the band 1102. The locking projection 1134 may have a curved surface 1136 facing away from the first end 1106 of the band 1102. The locking projection 1134 may be in the shape of a semi-circle as depicted. The curved surface 1136 may be semi-circular, or other rounded or semi-rounded shapes, such as short but straight segments forming a rounded contour. Further, the latch body 1117A may have an inner curved edge 1118. The latch 1117 may further include a recess 1130 within its inner curved edge 1118. The recess 1130 may have a curved edge 1132.

The curved edge 1132 of the latch 1117 may complement the curved surface 1136 of the locking projection 1134. In some embodiments, the curved edge 1132 may snuggly abut the curved surface 1136 when the locking mechanism 1101 is locked. The pivot pin 1119 and locking projection 1134 may be positioned on the second end 1104 and first end 1106 of the band 1102, respectively, in a configuration that allows the curved edge 1132 of the recess 1130 to receive the curved surface 1136 of the locking projection 1134 only when the curved edge is rotated into position around the curved surface 1136 such that the first and second ends 1106, 1104 are brought together. As shown, the latch 1117 is in an unlocked configuration. Bringing the first and second ends 1106, 1104 together so that the locking projection 1136 is received inside the recess 1130 may define a locked position. The curved edge 1132 of the recess 1130 and the inner curved edge 1118 of the latch 1117 may facilitate sliding of the latch over the curved surface 1136 of the locking projection 1134 as the latch 1117 is rotated around the pivot pin 1119 to bring the latch into a locked or unlocked position. The turn pins 1120 may be used to apply torque to latch 1117 around the pivot pin 1119 and facilitate the locking and unlocking of the latch 1117. In some embodiments, to lock the latch 1117, the inner curved edge 1118 may slide over the curved surface 1136, and the curved edge 1132 of the recess 1130 may then contact the curved surface 1136 to secure or otherwise lock the latch 1117 in place.

FIGS. 12A through 12H depict embodiments of various components of an embodiment of a clamp. The various components may be easily manufactured and assembled into a clamp, which may be the same or similar as the clamps described herein. FIG. 12A shows a top view of a band 1200 in a flat configuration. The band 1200 in the flat configuration as shown in FIG. 12A may be used to form or assemble a clamp. In some embodiments, the band 1200 may be formed into the rounded configuration shown in FIG. 12B.

As shown in FIG. 12A, the band 1200 may have a band body 1202. The band body 1202 may be manufactured from a monolithic piece of material. The band body 1202 may be manufactured from a flat sheet of material, such as steel, aluminum or other suitable materials, whether metallic or otherwise. The material may therefore be metal or another rigid material that may be bent into the shape of the rounded band 1200 depicted in FIG. 12B. As further shown in FIG. 12A, the band body 1202 may have a first end 1204 and a second end 1206 as well as a first outer edge region 1202A and a second outer edge region 1202B. The band body 1202 may be configured such that each outer edge region 1202A, 1202B comprises portions of a locking mechanism. The band body 1202 may be configured so that portions of the locking mechanism are positioned on opposite ends 1204, 1206 of the band, as shown in FIGS. 12A and 12B. The band body 1202 may be thin. In some embodiments, the band body 1202 may be about 0.040 inches thick. The band body 1202 may have a uniform or non-uniform thickness.

The band body 1202 may include one or more flanges 1221 for forming one or more channels 1220 (see, for example, FIG. 12B). The one or more channels 1220 may be formed as integral parts of the band body 1202 from flanges 1221 that extend from the outer edge portions 1202A, 1202B of the band body 1202. Each flange 1221 may be located near one of the ends 1204, 1206 of the band body 1202 and on opposite outer edge portions 1202A, 1202B. The flanges 1221 may be generally rectangular in shape. The flanges 1221 may include a flange body 1222 having an outer edge 1223. The outer edge 1223 may be straight and parallel to the edges of the outer edge portions 1202A, 1202B that run along the remaining length of the band body 1202 where the flanges 1222 are not present. The band body 1202 may further include slits 1225 formed in outer edge portions 1202A, 1202B, of the band near the flanges 1221. The slits 1225 may be elongate in shape and extend parallel to the outer edges 1223 of the flanges 1222. The slits 1225 may be positioned along the circumferential length of the band body 1202 to align with the outer edges 1223. The slits 1225 may have a length equal to or greater than that of the outer edges 1223 and a width equal to or greater than the thickness of the manufactured band body 1202. The flanges 1221 may be bent or otherwise deformed such that each slit 1225 receives the outer edge 1223 of an adjacent flange 1221 to form the corresponding channel 1220, as further discussed below and as shown in FIG. 12B.

The flange body 1222 may also include slots 1229. The slots 1229 may be elongate, parallel to each other, and extend in a direction transversely to the band body 1202.

The slots 1229 may be positioned closer to the end of the flange body 1222 that is coupled with the remainder of the band body 1202 than to the outer edge 1223. The flanges 1221 may include a nub 1227 extending from a side edge of the flange body 1222 and substantially aligned with the slots 1229. The nub 1227 may be about the same length as the slots 1229. The nub 1227 may be substantially rectangular but may have rounded corners. The nub 1227 may be located on the side of the flange 1221 closest to the end 1204, 1206 of the band body 1202 to which the flange is coupled, as shown in FIGS. 12A, 12B, and 12H. Alternatively, the nub 1227 may be located on the opposite side of the flange 1222 furthest from the end 1204, 1206 of the band body 1202 to which the flange 1221 is coupled.

The flange 1221 may be bent to form the final configuration of the channel 1220, shown in FIG. 12B. The outer edge 1223 may be received within the slit 1225. The portion of the flange 1221 that extends through the slit 1225 may be bent back toward the outer edge portion 1202A, 1202B to which the flange 1221 is coupled in order to secure the flange within the slit. The flange 1221 may be further bent to form three edges, all parallel to outer edge 1223, such that the channel 1220 forms an opening 1226 that is generally rectangular in shape. For instance, the flange 1221 may be bent along an axis formed by the intersection of the flange 1221 and the band body 1202, as well as on both sides of the series of slots 1229, such that the slots 1229 are positioned on a top portion of the rectangular channel 1220, in a plane parallel with the remainder of the band. The nub 1227 may be bent upward so that it forms an angled end portion to the channel 1220 that extends upward and toward the end 1204, 1206 of the band body 1202 to which the channel is coupled. Alternatively, the nub 1227 may be formed on the opposite end of the channel 1220, extending upward and away from the end 1204, 1206 of the band body 1202 to which the channel is coupled. The nub 1227 may act as a guide for a tool such as a flat head screwdriver, orienting the tool into the proper position for disengaging the locking mechanism of the band body 1202.

The band body 1202 may include holes 1210 located at opposite ends 1204, 1206 of the band body 1202. The holes 1210 may be positioned near outer edge portions 1202A, 1202B of the band body 1202 so as to align with the channel 1220 to which it is opposed (see FIG. 12B). The hole 1210 may be circular in shape. As shown in FIG. 12B, the band body 1202 may be manufactured such that a rectangular portion of each corner 1212 of the band possessing a hole 1210 may be raised so that the hole lies in a plane parallel to the remainder of the band but elevated slightly above the surface of the band. In some embodiments, the band body 1202 may be formed, partially or wholly, by being stamped. Thus, the raised hole 1210 shown in FIG. 12B may be formed by stamping accordingly that portion of the band body 1202.

As shown in FIG. 12B, the band body 1202 may be bent from a flat configuration to a circular or rounded shape, to bring the first and second ends 1204, 1206 of the band together. The first and second ends 1204, 1206 may slightly overlap when the band body 1202 is in its bent configuration. The bent configuration of the band body 1202 may for a circular channel 1203 for receiving the ends of two abutting pipes. The bent configuration may bring each channel 1220 near an opposing hole 1210.

FIG. 12C is a top view of an embodiment of a tab 1217 that may be used with the band body 1202. The first and second ends 1204, 1206 of the band body 1202 may be secured together with one or more of the tabs 1217, which may be flexible. The tab 1217 may be manufactured as a separate component. The tab 1217 may be manufactured from a monolithic piece of material. The tab 1217 may be manufactured from a flat piece of material. The material may be metal or another rigid material that may be bent into the shape of the formed component depicted in FIG. 12D. The tab 1217 may include a base 1216 which may be detachably coupled to the band body 1202. The tab 1217 may further include an extension 1218 which is received by the opening 1226 of the channel 1220 for securing the first and second ends 1204, 1206 of the band 1200 together. The base 1217A may be wider than the extension 1218 as shown in FIG. 12C.

The extension 1218 may include a flange 1252 formed within a recess 1254 for forming a raised portion 1250. The recess 1254 may be centrally located within the extension 1218 such that it does not extend to any of the tab's outer edges. The recess 1254 may include three generally rectangular spaces 1254A, 1254B, 1254C that define the flange 1252, which may be rectangular in shape. The first space 1254A may be formed at the distal end of the flange 1252 with the second space 1254B and third space 1254C extending from one side of the first space along the lateral edges of the flange to its proximal end. The corners of the flange 1252 and recess 1254 may be rounded. The flange 1252 may be bent upward (as shown in FIG. 12D) at its proximal end to form a raised portion 1250 for engaging one of the slots 1229 of channel 1220 when the tab 1217 is inserted into the opening 1226.

The raised portion 1250 of the tab 1217 may be elongate and shaped to complement the shape of the slots 1229. The tab 1217 may be able to flex upward and downward for engaging and disengaging the slots 1229. The tab 1217 may be configured such that it is biased upward within the channel 1220 when assembled with the band body 1202 so that the raised portion 1250 may engage a slot 1229 when no pressure is applied. The tab 1217 may be flexible so that it can be deflected downward to disengage from the slot 1229. The tab 1217 may be made sufficiently flexible by manufacturing it from a thin piece of material. The slots 1229 may be large enough to accommodate a tool, such as a flat head screwdriver, which could be used to apply downward pressure to the raised portion 1250 and disengage the tab 1217 from the channel 1220. The distal end of the extension 1218 of the tab 1217 may be bent downward to form a lip 1219 extending away from the tab.

The base 1216 may include a proximal section 1216A, a middle section 1216B, and a distal section 1216C. The sections 1216A, 1216B, 1216C may be integral with each other and of the same width. The distal section 1216C may be raised above the proximal section 1216A by bending the tab 1217 along the edges of the middle section 1216B such that the middle section 1216B forms an angled surface extending from the proximal section 1216A upward to the distal section 1216C. The tab 1217 may be coupled with the band body 1202 using a hole 1215 formed in the distal section 1216C of the tab. The hole 1215 may be circular and may be located in the center of the distal section 1216C. The entire tab 1217 may be slightly bent into a curved shape, as shown in FIG. 12D, which generally complements the circumference of the rounded band body 1202.

FIG. 12E is a perspective view of an embodiment of a pin 1260 that may be used with the band body 1202. The tab 1217 may be coupled with the band body 1202 via the pin 1260. The pin 1260 may be metal or another rigid material. The pin 1260 may include a base 1262 coupled with a protrusion 1264. The base 1262 may be rectangular in shape and the protrusion 1264 may be generally rounded in shape. The base 1262 and protrusion 1264 may be integral and they may be manufactured from a single piece of monolithic material or manufactured then joined together. The protrusion 1264 may include three sections 1264A, 1264B, 1264C extending from the base 1262 to a distal end. Each section may be generally cylindrical in shape. The first section 1264A may be coupled with the base 1262 on one end and coupled with the second section 1264B on the other end. The second section 1264B may be coupled to the first section 1264A on one end and coupled with the third section 1264C on the other end. The diameter of the first and third sections 1264A, 1264C may be greater than the diameter of the second section 1264B. The diameter of the first and third sections 1264A, 1264C may be equal. The width and length of the base 1262 may be greater than the any of the diameters of the three sections 1264A, 1264B, 1264C. The proximal and distal ends of the sections 1264A, 1264B, 1264C may form the end of cylinders, the edges of which may be beveled.

The sections 1264A, 1264B, 1264C may be sized to allow for the pin 1260 to couple the tab 1217 to the band body 1202. In some embodiments, the hole 1215 of the tab 1217 may be aligned with the hole 1210 of the band body 1202 to form a continuous channel therethrough. The holes 1215, 1210 may receive the protrusion 1264 of the pin 1260. The base 1262 of the pin 1260 may butt against an outer surface of the tab 1217, such as an outer surface of the distal section 1216C of the tab 1217. The protrusion 1264 may then extend through the holes 1215, 1210 such that the third section 1264C extends beyond the holes 1215, 1210 to secure the tab 1217 to the band body 1202. In some embodiments, the outer width of the third section 1264C may be the same as the widths of the holes 1215, 1210. In some embodiments, the outer width of the third section 1264C may be slightly smaller than the widths of the holes 1215, 1210. In other embodiments, the outer width of the third section 1264C may be larger than the widths of the holes 1215, 1210 such that the third section 1264C cannot easily be removed once inserted through the holes 1215, 1210. In some embodiments, the protrusion 1264 may be flexible to allow the protrusion 1264 to partially deform to fit through the holes 1215, 1210. In some embodiments, the protrusion 1264 may be a rubber or other flexible material that allows the protrusion 1264 to fit through the holes. Further details of assembly of the pin 1260 with the tab 1217 and band body 1202 are described herein, for example with respect to FIG. 12G.

FIG. 12F depicts an embodiment of a tool 1270 for closing a clamp. The tool 1270 may be used with the components of a clamp depicted in FIGS. 12A-12E that are shown assembled in FIG. 12H. However, the tool 1270 may be used with any suitable clamp. As shown in FIG. 12F, the tool 1270 may include a head 1271 which may be coupled to the end of a handle (not shown) for applying torque. The head 1271 may include an opening 1272 for receiving a handle. The opening 1272 may be substantially rectangular. The opening 1272 may have a decreasing width from one side of the tool 1270 to the opposite side. The tool 1270 may include a first sidewall 1274 and a second sidewall 1276 positioned on opposite ends of the head 1271. Each sidewall 1274, 1276 may define a cavity 1277 for receiving arcuate projections 1264 as shown in FIGS. 12G and 12H. The arcuate projections may be on the pins 1260.

The cavities 1277 may have rounded portions 1278 configured to contact arcuate projections 1264. The cavities 1277 and the rounded portions 1278 formed by the first and second sidewalls 1274, 1276 may face opposite directions from each other. Applying torque to the tool 1270 may rotate the head 1271 about the arcuate projections 1264 so that contact of the arcuate projections with the rounded portions 1278 of the cavities 1277 biases the arcuate projections 1264 in opposite directions to close the clamp. By biasing the arcuate projections 1264 in opposite directions, the tool 1270 may be used to tighten clamps which have arcuate projections, such as the pins 1260, on each end of a band. Each sidewall 1274, 1276 may include a lip 1279 on respective bottoms side of the tool 1270. As shown in FIG. 12G, the lips 1279 may engage the third section 1264C of pins 1260, which may restrict the tool 1270 from sliding upward along the arcuate surface of the pins 1260 and off of the assembly.

FIG. 12G is a perspective view of an embodiment of the assembly of one of the pins 1260 with the band body 1202 and one of the tabs 1217 as well as its engagement with a portion of the tool 1270. Thus, only a portion of the assembly is detailed in this view. It is understood that the description of this portion of the assembly applies equally to the other portion of the assembly that is not visible. As shown, the protrusion 1264 of the pin 1260 may be inserted through both the hole 1210 formed in the band body 1202 and the hole 1215 formed in the tab 1217. The shapes of the holes 1210 and 1215 may complement the shape of the first section 1264A and may form a snug fit that restricts the band body 1202 and/or tab 1217 from sliding off the pin 1260. The shape of the third section 1264C may also complement the shape of holes 1210 and 1215 and may form a snug fit with the band body 1202 and tab 1217 that does not entirely restrict the third section from passing through either hole 12010, 1215. The base 1262 of the pin 1260 may prevent the pin 1260 from passing entirely through the hole 1210 in the band body 1202. The shape of the base 1262 may complement the shape of the raised corner 1212 of the band body 1202 such that the base is received under the raised corner 1212. Thus, the pin 1260 may secure the band body 1202 and tab 1217 together. When assembled, the first section 1264A of the protrusion 1264 may sit within aligned holes 1210 and 1215 such that the tab 1217 is positioned above and in contact with the band body 1202. The second section 1264B may sit exposed above tab 1217 and band body 1202 and may come in contact with the lateral edge of the lip 1279 of the tool 1270 when engaged. The third section 1264C may also sit above the tab 1217 and the band body 1202. A lower edge and/or surface of the third section 1264C may contact an upper surface or surfaces of the lip 1279 such that the tool 1270 is restricted from sliding upward and off of the assembly when engaged. The rounded surfaces of the second section 1264B and third section 1264C may contact the inner rounded portion 1278 of the sidewall 1274 of the tool 1270 such that the tool 1270 may rotate around the pin 1260 and move or otherwise bias the pin 1260 to close the clamp. The clamp may be the clamp 1201 as described with respect to FIG. 12H.

FIG. 12H is a top view of an embodiment of a clamp 1201 formed from the various components of FIGS. 12A-12E and engaged by the tool 1270. As shown in FIG. 12H, when the rounded band body 1202 and rounded tabs 1217 (i.e. in their “rounded” configurations described above) are assembled with respective pins 1260, the extensions 1218 of respective tabs 1217 may be inserted into the respective openings 1226 of the opposing channels 1220 on opposite ends of the band 1200. This may secure the first and second ends 1204, 1206 of the band 1200 together. The clamp 1201 may be assembled such that the tabs 1217 are inserted into their respective opposing channels 1220 and secured by engagement of respective raised portions 1250 through one of the slots 1229, which may be done prior to placing the clamp 1201 around any pipe. As shown, the flanges 1252 of the raised portions 1250 may extend through respective slots 1229.

The tool 1270 may be engaged with the clamp 1201 such that rounded portions 1278 of respective first and second sidewalls 1274, 1276 are engaged with corresponding rounded surfaces of respective pins 1260. Application of torque to the tool 1270, for example by a handle inserted into the opening 1272, may be used to bring the first and second ends 1204, 1206 of the band body 1202 closer together. This may further extend the extensions 1218 of tabs 1217 further into the openings 1226 of the channels 1220 and cause the flanges 1252 of the raised portions 1254 to engage with various other slots 1229 further away from the ends 1204, 1206 of the band, resulting in tightening of the clamp 1201.

FIGS. 13A and 13B depict an embodiment of a locking mechanism 1301 for securing the first end 1304 and second end 1306 of a band 1302. The band 1302 may have the same or similar features as other bands described herein. The components of the locking mechanism 1301 may be formed from the same or similar materials. The band 1302 may be manufactured from a monolithic piece of material. The band 1302 may be manufactured from a flat sheet of metal or other suitable material. The material may be any rigid material that may be bent or otherwise shaped into a final configuration.

The band 1302 may have a first outer edge region 1302A and a second outer edge region 1302B. The band 1302 may be configured such that each outer edge region 1302A, 1302B comprises portions of the locking mechanism 1301. As shown, similar parts of each mechanism portion may be located on the same end 1304, 1306 of the band 1302 (for example, slots both on one end and raised tabs both on the opposite end). In some embodiments, the mechanism portions may be located on opposite ends 1304, 1306 (for example, first slots and a first raised tab on one end, with second slots and a second raised tab on the opposite end). FIG. 13A shows the first and second ends 1304, 1306 joined together.

The first end 1304 of the band 1302 may have engagement areas 1320 formed within each outer edge region 1302A, 1302B of the band 1302. The engagement areas 1320 may include one or more slots 1329. The slots 1329 may be openings through the band 1302. The slots 1329 may be elongate, parallel to each other, and extend in a direction transversely to the band 1302. The slots 1329 may be aligned across from each other on opposite outer edge regions 1302A, 1302B of the band. The engagement areas 1320 may include a series of the slots 1329 configured to receive corresponding securement features, such as raised tabs 1352 described below.

One or both ends of the band 1306 may include one or more securement features 1350. As shown in FIG. 13B, the second end 1306 of the band 1306 may include two securement features 1350. The securement features 1350 may be aligned across from each other on opposite outer edge regions 1302A, 1302B of the band. The securement features 1350 may engage with corresponding engagement areas 1320 on the opposite end of the band 1302. The securement features 1350 may include raised tabs 1352. As shown, the raised tabs 1352 may extend upward and away from the second end 1306 of the band 1302. The raised tabs 1352 may be formed by making cutouts in the band 1302 to define the raised tabs 1352 and subsequently bending or otherwise raising the raised tabs 1352 into the ramped configurations shown. Each securement feature 1350 may be aligned with the engagement area 1320 on the same outer edge region 1302A, 1302B so that when the second end 1304 of the band 1302 is brought beneath the first end 1304 of the band, the securement features 1350 may engage one of the slots 1329, securing the band 1302 into a locked configuration. The dashed line in FIG. 13A represents the second end 1306 of the band 1302 which is hidden beneath the first end 1304 of the band.

The band 1302 may include one or more gripping elements 1340. The gripping elements 1340 may have the same or similar features as other gripping elements described herein, for example the gripping elements 640 and 440. As shown, the band 1302 may include two gripping elements 1340 positioned on opposite ends 1304, 1306 of the band. The gripping elements 1340 may be positioned along the width of the band 1302 generally between the engagement areas 1320. In some embodiments, the gripping elements 1340 may be located in other positions. The gripping elements 1340 may include arcuate projections 1342. The arcuate projections 1342 may have the same or similar features as other arcuate projections described herein, for example the arcuate projections 442 and 642. The arcuate projections 1342 may be coupled with and extending away from opposite outer edge portions 1302A, 1302B of the band 1302. The arcuate projections 1342 may be configured for gripping with a tool, for example the tool 700 or the tool 1270, to facilitate tightening and locking the band.

The above discussion is presented to enable a person skilled in the art to make and use one or more of the described embodiments. The general principles described herein may be applied to embodiments and applications other than those detailed above without departing from the spirit and scope of the disclosure. Indeed, the described embodiments are not intended to be limited to the particular embodiments shown or described above, but are to be accorded the widest scope consistent with the principles and features disclosed or suggested herein.

This disclosure extends beyond the specifically disclosed embodiments to other alternative embodiments and/or other uses of the embodiments, as well as to certain modifications, combinations, sub-combinations and/or equivalents thereof. This disclosure expressly contemplates that various features and aspects of the disclosed embodiments can be combined with, or substituted for, one another.

In one aspect, a no hub clamp comprises two elongated main bands configured to surround two adjacent pipe ends, the main bands connected by transverse ties, the main bands having a first end and a second end, wherein the first and second ends are brought together to surround the adjacent pipe ends, the first end having a tunnel configured to receive therein a tab from the second end, the tab connected to the second end, the tab having a ridge projecting therefrom, the tunnel having a series of grooves configured to receive the ridge to securely connect the two ends of the main bands, the tab having an angled projection on one end that biases the ridge through the groove when the clamp is in a locked state.

In another aspect, a no hub clamp comprises an elongated main band configured to surround two adjacent pipe ends, the main band having a first end and a second end, wherein the first and second ends are brought together to surround the adjacent pipe ends, the first end having a tunnel configured to receive therein a tab from the second end, the tab connected to the second end, the tab having a ridge projecting therefrom, the tunnel having a series of grooves configured to receive the ridge to securely connect the two ends of the main bands, the tab having an angled projection on one end that biases the ridge through the groove when the clamp is in a locked state, the ends of the main band having pins configured to be received by a tool for tightening the clamp.

While the above detailed description has shown, described, and pointed out novel features of the invention as applied to various embodiments, it will be understood that various omissions, substitutions, and changes in the form and details of the device or process illustrated may be made by those skilled in the art without departing from the spirit of the invention. As will be recognized, the present invention may be embodied within a form that does not provide all of the features and benefits set forth herein, as some features may be used or practiced separately from others. The scope of the invention is indicated by the appended claims rather than by the foregoing description. All changes which come within the meaning and range of equivalency of the claims are to be embraced within their scope.

The foregoing description details certain embodiments of the systems, devices, and methods disclosed herein. It will be appreciated, however, that no matter how detailed the foregoing appears in text, the systems, devices, and methods may be practiced in many ways. As is also stated above, it should be noted that the use of particular terminology when describing certain features or aspects of the invention should not be taken to imply that the terminology is being re-defined herein to be restricted to including any specific characteristics of the features or aspects of the technology with which that terminology is associated.

It will be appreciated by those skilled in the art that various modifications and changes may be made without departing from the scope of the described technology. Such modifications and changes are intended to fall within the scope of the embodiments. It will also be appreciated by those of skill in the art that parts included in one embodiment are interchangeable with other embodiments; one or more parts from a depicted embodiment may be included with other depicted embodiments in any combination. For example, any of the various components described herein and/or depicted in the figures may be combined, interchanged or excluded from other embodiments.

The processes described and/or shown herein are illustrative only. A person of skill in the art will understand that the steps, decisions, and processes described herein may be performed in an order other than that described herein. Thus, the particular descriptions are not intended to limit the associated processes to being performed in the specific order described.

With respect to the use of substantially any plural and/or singular terms herein, those having skill in the art may translate from the plural to the singular and/or from the singular to the plural as is appropriate to the context and/or application. The various singular/plural permutations may be expressly set forth herein for sake of clarity.

It will be understood by those within the art that, in general, terms used herein are generally intended as “open” terms (e.g., the term “including” should be interpreted as “including but not limited to,” the term “having” should be interpreted as “having at least,” the term “includes” should be interpreted as “includes but is not limited to,” etc.). It will be further understood by those within the art that if a specific number of an introduced claim recitation is intended, such an intent will be explicitly recited in the claim, and in the absence of such recitation no such intent is present. For example, as an aid to understanding, the following appended claims may contain usage of the introductory phrases “at least one” and “one or more” to introduce claim recitations. However, the use of such phrases should not be construed to imply that the introduction of a claim recitation by the indefinite articles “a” or “an” limits any particular claim containing such introduced claim recitation to embodiments containing only one such recitation, even when the same claim includes the introductory phrases “one or more” or “at least one” and indefinite articles such as “a” or “an” (e.g., “a” and/or “an” should typically be interpreted to mean “at least one” or “one or more”); the same holds true for the use of definite articles used to introduce claim recitations. In addition, even if a specific number of an introduced claim recitation is explicitly recited, those skilled in the art will recognize that such recitation should typically be interpreted to mean at least the recited number (e.g., the bare recitation of “two recitations,” without other modifiers, typically means at least two recitations, or two or more recitations). Furthermore, in those instances where a convention analogous to “at least one of A, B, and C, etc.” is used, in general such a construction is intended in the sense one having skill in the art would understand the convention (e.g., “a system having at least one of A, B, and C” would include but not be limited to systems that have A alone, B alone, C alone, A and B together, A and C together, B and C together, and/or A, B, and C together, etc.). In those instances where a convention analogous to “at least one of A, B, or C, etc.” is used, in general such a construction is intended in the sense one having skill in the art would understand the convention (e.g., “a system having at least one of A, B, or C” would include but not be limited to systems that have A alone, B alone, C alone, A and B together, A and C together, B and C together, and/or A, B, and C together, etc.). It will be further understood by those within the art that virtually any disjunctive word and/or phrase presenting two or more alternative terms, whether in the description, claims, or drawings, should be understood to contemplate the possibilities of including one of the terms, either of the terms, or both terms. For example, the phrase “A or B” will be understood to include the possibilities of “A” or “B” or “A and B.”

All references cited herein are incorporated herein by reference in their entirety. To the extent publications and patents or patent applications incorporated by reference contradict the disclosure contained in the specification, the specification is intended to supersede and/or take precedence over any such contradictory material.

The term “comprising” as used herein is synonymous with “including,” “containing,” or “characterized by,” and is inclusive or open-ended and does not exclude additional, unrecited elements or method steps.

All numbers expressing quantities of ingredients, reaction conditions, and so forth used in the specification and claims are to be understood as being modified in all instances by the term “about.” Accordingly, unless indicated to the contrary, the numerical parameters set forth in the specification and attached claims are approximations that may vary depending upon the desired properties sought to be obtained by the present invention. At the very least, and not as an attempt to limit the application of the doctrine of equivalents to the scope of the claims, each numerical parameter should be construed in light of the number of significant digits and ordinary rounding approaches.

The above description discloses several methods and materials of the present invention. This invention is susceptible to modifications in the methods and materials, as well as alterations in the fabrication methods and equipment. Such modifications will become apparent to those skilled in the art from a consideration of this disclosure or practice of the invention disclosed herein. Consequently, it is not intended that this invention be limited to the specific embodiments disclosed herein, but that it cover all modifications and alternatives coming within the true scope and spirit of the invention as embodied in the attached claims. 

What is claimed is: 1.-52. (canceled)
 53. A gasket comprising: a rounded sidewall defining a channel therethrough in a first direction, the sidewall comprising: a first sidewall portion having a first edge and a second edge that is opposite the first edge, the first and second edges extending generally in the first direction, and the first sidewall portion having a first thickness; and a first membrane section connecting the first edge to the second edge, the first membrane section extending generally in the first direction, and the first membrane section having a second thickness, wherein the second thickness is less than the first thickness.
 54. The gasket of claim 53, the first sidewall portion further comprising a second, a third, and a fourth membrane section, wherein each of the membrane sections extend s generally in the first direction, wherein each of the membrane sections connects opposing edges of the first sidewall portion, and wherein each of the membrane sections has the second thickness. 55.-56. (canceled)
 57. The gasket of claim 53, the first membrane section configured to at least partially collapse to bring the first and second edges closer to each other.
 58. The gasket of claim 54, the first, second, third and fourth membrane sections configured to at least partially collapse to bring opposing edges closer to each other.
 59. The gasket of claim 53, the rounded sidewall further comprising: a first half having a first outer end and a first inner end, the first outer end defining a first opening of the channel and having a first width; and a second half having a second outer end and a second inner end, the second outer end defining a second opening of the channel opposite the first end of the channel, the second end having a second width, wherein the first and second inner ends are connected at a middle portion having a third width, and wherein the third width is less than each of the first and second widths.
 60. The gasket of claim 59, wherein the first and second halves are frustoconical.
 61. The gasket of claim 54, the rounded sidewall further comprising: a first half having a first outer end and a first inner end, the first outer end defining a first opening of the channel and having a first width; a second half having a second outer end and a second inner end, the second outer end defining a second opening of the channel opposite the first end of the channel, the second end having a second width, wherein the first and second inner ends are connected at a middle portion having a third width, wherein the third width is less than each of the first and second widths.
 62. The gasket of claim 61, wherein the first and second halves are frustoconical.
 63. The gasket of claim 59, wherein the membrane section comprises: a first portion coupled with the first half of the sidewall and extending from the first outer end of the first half to the first inner end of the first half, wherein the first portion of the membrane is wider at the first outer end than at the first inner end; and a second portion coupled with the second half of the sidewall and extending from the second outer end of the second half to the second inner end of the second half, wherein the second portion of the membrane is wider at the second outer end than at the second inner end. 64-65. (canceled)
 66. The gasket of claim 59, wherein the membrane section defines an inner gap facing the channel and defines an outer gap facing away from the channel.
 67. The gasket of claim 66, wherein the membrane section is configured to collapse generally into a Z-shape.
 68. The gasket of claim 67, wherein the membrane section comprises an edge configured to bias the membrane section to collapse into the Z-shape.
 69. The gasket of claim 53 further comprising: a first end; and a second end that is opposite the first end, wherein the first edge, the second edge and the membrane section extend from the first end to the second end.
 70. The gasket of claim 69, wherein the membrane section is configured to collapse generally into a V-shape.
 71. The gasket of claim 70, wherein the membrane section comprises an edge configured to bias the membrane section to collapse into the V-shape.
 72. The gasket of claim 53 further comprising: a first end; a second end that is opposite the first end; and a circumferential ridge coupled with the sidewall and projecting into the channel in between the first and second ends.
 73. The gasket of claim 72, the circumferential ridge comprising a plurality of ridge portions interrupted and separated by the membrane section.
 74. The gasket of claim 53 further comprising: a first end; and a second end that is opposite the first end, wherein the first edge, the second edge and the membrane section extend from the first end to a location in between the first and second ends.
 75. (canceled)
 76. The gasket of claim 72, wherein the first edge comprises first and second edge portions, wherein the second edge comprises third and fourth edge portions, wherein the first membrane section comprises first and second membrane portions, wherein the first and third edge portions and the first membrane portion each extend from the first end of the gasket toward the ridge, and wherein the second and fourth edge portions and second membrane portion each extend from the second end of the gasket toward the ridge.
 77. The gasket of claim 76, wherein the first and third edge portions and the first membrane portion each extend from the first end of the gasket to the ridge, and wherein the second and fourth edge portions and second membrane portion each extend from the second end of the gasket to the ridge. 78.-92. (canceled) 